Methods and systems for generating, validating and using monoclonal antibodies

ABSTRACT

Provided herein is a library of antibodies, wherein the library of antibodies can comprise a plurality of monoclonal, monospecific, or immunoprecipitating antibodies. Also provided herein is a method for producing and using the library of antibodies.

CROSS-REFERENCE

This application is a continuation of U.S. application Ser. No. 17/398,164, filed Aug. 10, 2021, which is a continuation of U.S. application Ser. No. 15/632,261, filed Jun. 23, 2017, which is a continuation of U.S. application Ser. No. 13/704,592, filed Jul. 17, 2013, which a national phase application under 35 U.S.C. § 371 of PCT International Application No. PCT/US2011/040789, filed Jun. 16, 2011, which claims the benefit of U.S. Provisional Application No. 61/355,329, filed on Jun. 16, 2010, the entire contents of which are incorporated herein by reference for all purposes.

STATEMENT AS TO FEDERALLY SPONSORED RESEARCH

This invention was made with the support of the United States government under RR020839 and GM076102 awarded by the National Institutes of Health. The government may have certain rights in the invention.

BACKGROUND

There is an important need in the biomedical community for a reliable technology that produces the highest possible quality, reproducible antibody reagents. Ongoing improvement of this technology pipeline will directly benefit both the health research community and the larger biomedical community.

The detection or binding of an epitope, antigen or proteins is a large component of the research products industry, serving both academia and the pharmaceutical industry, as well as in the diagnostic and therapeutic industries. The use of antibodies to detect epitope, antigens or proteins can be used to identify new biomarkers and perform many assays. For example, antibodies are also widely used in diagnostic applications, such as for clinical medicine (e.g., ELISA and radioimmunoassay systems). Analysis of cells and tissues in pathology laboratories includes the use of antibodies on tissue sections and in flow cytometry analyses. Antibodies are also useful as therapeutics.

The production of antibodies can be costly and time-consuming, thus methods for the high throughput production of antibodies, in particular, highly specific antibodies, that is more cost-effective and less time-consuming is desirable. The present disclosure meets these needs, and provides related advantages.

SUMMARY

The present invention generally relates to libraries of antibodies, including methods and systems to produce, generate, characterize and utilize antibodies. The antibodies can be highly specific. In some embodiments, the antibodies are monoclonal antibodies. The library can comprise a plurality of different antibodies, where the antibodies are produced by the same platform. The library can comprise a plurality of different antibodies, wherein within the plurality or a subset of the plurality, each antibody is a monospecific antibody; binds a native form of its target protein; is a monoclonal antibody; is an immunoprecipitating antibody; is an IgG antibody or antibody of IgG isotype; has a binding affinity for its target that is similar to that of another antibody of the plurality of antibodies (for example, within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, or 20%); have a binding affinity of at least 10⁻⁷M (K_(D)) (for example, such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M) for its target; or any combination thereof.

The libraries of antibodies can be produced with high reproducibility. For example, in a first library of antibodies and a second library of antibodies, the first and second library comprises the same set of different antibodies and each antibody of the first library has a binding affinity that is within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, or 20% of the binding affinity of the same antibody of the second library.

One aspect of the present invention is a library of antibodies comprising a plurality of different antibodies, wherein at least 10% of the plurality is produced by the same platform. In one embodiment, the library comprises a plurality of different antibodies, wherein at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality are antibodies produced by the same platform.

Each antibody of the plurality of antibodies produced by the same platform can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The antibodies produced by the same platform, can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

In yet another embodiment, the antibodies produced by the same platform binds at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M, such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The antibodies produced by the same platform can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8% 9% 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Another aspect of the present invention is a library of antibodies comprising a plurality of different antibodies, wherein at least 10%, such as at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100%, of said plurality is a monospecific antibody. Each monospecific antibody of the plurality can bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The monospecific antibodies that comprise at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the library can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the at least 10% plurality of monospecific antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The monospecific antibodies that comprise at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality of different antibodies can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the at least 10% plurality of monospecific antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The monospecific antibodies that comprise at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality of different antibodies can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Also provided herein is a library of antibodies comprising a plurality of different antibodies, wherein at least 10% of the plurality has a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰ M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target, for its target protein. Each antibody of the plurality of antibodies that has a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target, can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; or any combination thereof.

The antibodies that have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰ M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target, can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; or any combination thereof.

The antibodies that have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰ M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target, can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; or any combination thereof.

The antibodies that have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target, can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; or any combination thereof.

Another aspect of the present invention is a library of antibodies comprising a plurality of different antibodies, wherein at least 10% of said plurality binds a native form of its target protein. In one embodiment, the library comprises a plurality of different antibodies, wherein at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality binds a native form of its target protein. Each antibody of the plurality that binds a native form of its target protein can be a monospecific antibody; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The antibodies that bind a native form of its target protein can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

In yet another embodiment, the antibodies that bind a native form of its target protein can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The antibodies that bind a native form of its target protein can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Another aspect of the present invention is a library of antibodies comprising at least 50 different monoclonal antibodies, such as at least 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different monoclonal antibodies. Each monoclonal antibody of the library can be monospecific; bind a native form of its target protein; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

In yet another embodiment, the library of antibodies comprising at least 50 different monoclonal antibodies, such as at least 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, binds at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the monoclonal antibodies or a subset of the monoclonal antibodies can be a monospecific antibody; bind a native form of its target protein; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The library of antibodies comprising at least 50 different monoclonal antibodies, such as at least 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different monoclonal antibodies, can bind at least 0.5% 1%, 2% 3% 4%, 5%, 6%, 7% 8% 9% 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the monoclonal antibodies or a subset of the monoclonal antibodies can be monospecific; bind a native form of its target protein; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Yet another aspect of the present invention is a library of antibodies comprising a plurality of different antibodies that binds at least 0.5% of the human proteome, such as at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome. Each antibody of the plurality can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The library of antibodies comprising a plurality of different antibodies that binds at least 0.5% of the human proteome, such as at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The library of antibodies comprising a plurality of different antibodies that binds at least 0.5% of the human proteome, such as at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Another aspect of the present invention is a library of antibodies comprising a plurality of different antibodies, wherein at least 10%, such as at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100%, of said plurality has a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality. Each antibody of the plurality can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity of at least 10⁻⁷M, such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The library of antibodies comprising a plurality of different antibodies, wherein at least 10%, such as at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100%, of said plurality has a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

In yet another embodiment, library of antibodies comprising a plurality of different antibodies, wherein at least 10%, such as at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100%, of said plurality has a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality binds at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The library of antibodies comprising a plurality of different antibodies, wherein at least 10%, such as at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100%, of said plurality has a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Also provided herein is a library of antibodies comprising a plurality of different antibodies, wherein at least 10% of said plurality is an IgG antibody or antibody of IgG isotype. In one embodiment, the library comprises a plurality of different antibodies, wherein at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality are IgG antibodies (e.g. antibodies of IgG isotype) produced by the same platform. Each IgG antibody (e.g. antibody of IgG isotype) can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The IgG antibodies (e.g. antibodies of IgG isotype) can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

In yet another embodiment, the IgG antibodies (e.g. antibodies of IgG isotype) binds at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The IgG antibodies (e.g. antibodies of IgG isotype) can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Another aspect of the present invention is an array comprising a library of antibodies and a substrate, wherein the antibodies, or a subset, such as at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100%, of the antibodies are immobilized on the substrate. The substrate can be planar or a particle, comprise a solid or porous material. The immobilization can be reversible or irreversible

The array can comprise a library of antibodies that comprises a plurality of different antibodies, where at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The array can comprise a library of antibodies that comprises at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M, such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The array can comprise a library of antibodies that binds at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The array can comprise a library of antibodies that can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Also provided herein are methods of producing a library of antibodies comprising: (a) immunizing an animal with a plurality of antigens; (b) isolating antibody-generating cells from said animal; (c) isolating a plurality of antibodies from said antibody-generating cells; (d) screening said plurality of antibodies of step c) with a human proteome array, wherein the human proteome array can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome or at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5; and (e) selecting an antibody that is monospecific for a proteome array. In some embodiments, the antibody selected in step (e) is added to a library, wherein the library can comprise a plurality of different antibodies, where at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality of different antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The method can produce a library of antibodies that can comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; not bind a denatured form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The method can produce a library of antibodies that can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The method can produce a library of antibodies that can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The methods of producing the library of antibodies can further comprise pre-screening the plurality of antibodies from the antibody-generating cells prior to step c), such as by performing immunocytochemistry or determining binding of antibodies from said antibody-generating cells with a mixture comprising one or more target antigens, such as native proteins. The mixture can comprise a crude lysate, one or more cells, one or more proteins, one or peptides, or one or more nucleic acids or a biological sample, wherein the biological sample can be, but is not limited to, a cell mixture, a tissue, blood, sera, plasma, urine, cerebrospinal fluid (CSF), sputum, saliva, bone marrow, synovial fluid, aqueous humor, amniotic fluid, cerumen, breast milk, broncheoalveolar lavage fluid, semen, prostatic fluid, Cowper's fluid, pre-ejaculatory fluid, female ejaculate, sweat, tears, cyst fluid, pleural fluid, peritoneal fluid, pericardial fluid, lymph, chyme, chyle, bile, interstitial fluid, menses, pus, sebum, vaginal secretion, mucosal secretion, stool water, pancreatic juice, lavage fluid from sinus cavities, bronchopulmonary aspirate, blastocyl cavity fluid, or umbilical cord blood.

The methods of producing the library of antibodies can comprise immunizing an animal with a plurality of antigens, wherein the plurality of antigens can comprise a crude lysate, one or more cells, one or more proteins, one or more peptides, or one or more nucleic acids. The plurality of antigens can also comprise a biological sample, wherein the biological sample can be, but is not limited to, a mixture of cells, a tissue, blood, sera, plasma, urine, cerebrospinal fluid (CSF), sputum, saliva, bone marrow, synovial fluid, aqueous humor, amniotic fluid, cerumen, breast milk, broncheoalveolar lavage fluid, semen, prostatic fluid, Cowper's fluid, pre-ejaculatory fluid, female ejaculate, sweat, tears, cyst fluid, pleural fluid, peritoneal fluid, pericardial fluid, lymph, chyme, chyle, bile, interstitial fluid, menses, pus, sebum, vaginal secretion, mucosal secretion, stool water, pancreatic juice, lavage fluid from sinus cavities, bronchopulmonary aspirate, blastocyl cavity fluid, or umbilical cord blood. In some embodiments, the plurality of antigens comprises at least 11,000 different antigens, such as at least 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 different antigens. In some embodiments, the plurality of antigens comprises at least 0.5% of the human proteome, such as at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100%, of the human proteome.

The antibody-generating cells in producing the library of antibodies can be B-cells. The method of producing a library of antibodies can further comprise immobilizing the antibody to a substrate, wherein the substrate can be planar or a particle, comprise a solid or porous material, or any combination thereof. The antibody can be reversibly or irreversibly immobilized to the substrate.

Also provided herein are methods of identifying an antibody monospecific for a human protein comprising: (a) contacting a plurality of antibodies with a human proteome array; (b) determining binding between said plurality of antibodies and the targets present on the human proteome array; and (c) identifying an antibody as monospecific when said antibody is monospecific for a single target on the proteome array, wherein the human proteome array can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome or at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5.

Also provided herein are methods of identifying an antibody for a target comprising: (a) contacting a target with a library of antibodies, or an array comprising the library of antibodies, (b) determining binding between said target and said plurality of antibodies; and (c) identifying an antibody for the target when the target binds to an antibody of the library. The library can comprise a plurality of different antibodies, where at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The method of identifying an antibody for a target can comprising contacting a target with a library of antibodies, or an array comprising the library of antibodies, that comprises at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different antibodies, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The method of identifying an antibody for a target can comprising contacting a target with a library of antibodies, or an array comprising the library of antibodies, that can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

The methods of identifying an antibody for a target can comprise contacting a target with a library of antibodies, or an array comprising the library of antibodies, that can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, wherein the antibodies or a subset of the antibodies can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof.

Also provided herein are methods of detecting a target comprising: (a) contacting a target with a library of antibodies, or an array comprising the library of antibodies, (b) determining the presence or absence of binding between said target and said plurality of antibodies; and (c) detecting the target when the target binds to at least one antibody of the library. The library can comprise a plurality of different antibodies, where at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality can be produced from the same platform, be a monospecific antibody; bind a native form of its target protein; be a monoclonal antibody; be an immunoprecipitating antibody; be an IgG antibody or antibody of IgG isotype; have a binding affinity for its target that is within at least 20%, such as within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, or 19%, of the binding affinity of another antibody of the plurality of antibodies produced by the same platform; have a binding affinity of at least 10⁻⁷M (K_(D)), such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target; or any combination thereof. In some embodiments, the methods further comprise detecting a plurality of targets. In some embodiments, the methods comprise detecting 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different targets. In some embodiments, the methods comprise detecting the levels of one more or targets

INCORPORATION BY REFERENCE

All publications, patents, and patent applications mentioned in this specification are herein incorporated by reference to the same extent as if each individual publication, patent, or patent application was specifically and individually indicated to be incorporated by reference.

BRIEF DESCRIPTION OF THE DRAWINGS

The novel features of the invention are set forth with particularity in the appended claims. A better understanding of the features and advantages of the present invention will be obtained by reference to the following detailed description that sets forth illustrative embodiments, in which the principles of the invention are utilized, and the accompanying drawings of which:

FIG. 1 depicts A. a method for selecting antibodies by immunizing an animal, generating hybridomas from the antimal, plating the hybridomas, probing the antibodies produced against a library, and selecting antibodies with a desired profile; and B. method of producing and validating ultra-specific monoclonal antibodies (MAbs) by live cell immunization, hybridoma selection, MAb identification, and validation.

FIG. 2 depicts a 3-D pooling strategy.

FIG. 3 depicts a flow chart of LR recombination cloning into a destination vector, with BsrGI digestion of 8,064 clones.

FIG. 4 depicts fabrication of a human proteome chip. A. 17,000 human proteins were purified in the form of N-teminal GST-His×6 fusion proteins and the quality was monitored by silver staining and immunoblot analysis. B. 17,000 purified human proteins and controls were spotted in duplicate on a single glass slide. The immobilized proteins were visualized with anti-GST. C. Higher-powerview of B. indicates the array is of good quality.

FIG. 5 depicts monoclonal antibody (mAb) quality profiling on a human protein chip. A. GST image of a human protein chip of 1,058 proteins. B. A monoclonal antibody (mAb) generated against pirin was tested against 1,058 proteins on the chip and only recognized pirin. The purple boxes indicate the mouse IgG landmarks. C. Four other mAbs also showed similar specificity as the anti-pirin mAb.

FIG. 6 depicts pooling strategies facility protein microarray analysis of mAb specificity. Hybridoma supernatants (A-L) are combined in “vertical” and “horizontal” pools, the binding specificity of which is then tested using the human protein microarrays. The specificity of individual mAbs is identified by determining which proteins on the microarray are bound by which combination of vertical and horizontal pools. In the example shown here, mAb pools recognizing a specific protein are indicated by Xs. The results indicate that only pools containing mAb “D” recognizes the antigen.

FIG. 7 depicts a high-throughput protein purification protocol developed for bacteria. A. Scheme of the protocol. B. Coomassie staining of purified proteins from 1.5 mL E. coli culture. C. Fabrication of an E. coli proteome chip.

FIG. 8 depicts subcellular localization of four human proteins using ICC. C11orf68, CNTD1, DYDC2, and TXNDC9 that were not known for their subcellular localization have now been localized to the mitochondria, cytosol, plasma membrane, and ER/Golgi, respectively.

FIG. 9 depicts validation and characterization of mMAbs (monospecific monoclonal antibodies). Cells were transfected with either VS-tagged antigen constructs (Lane 1) or empty vector (Lane 2), or co-transfected with antigen constructs with their corresponding shRNA constructs (Lane 3). Two days after transfection, cells were lysed and immuno-blotted with each corresponding mMAb (upper panel). As comparison, the same blots were stripped and re-probed with anti-VS antibody (lower panel).

FIG. 10 depicts many mMAbs are IP-grade. HeLa cells transfected with V5-tagged antigen constructs were immunoprecipitated with their corresponding mMAbs and immunoblotted with anti-V5 antibodies. Lane 1: Input; Lane 2: Antigens immunoprecipitated with mMAbs; Lane 3: IgG negative controls; Lane 4: Anti-V5 positive ocontrols.

FIG. 11 depicts characterization of anti-HNRPC mMAbs. A. ICC analysis using anti-HNRPC clearly shows a distinct nuclear localization. B. A single band of V5-tagged HNRPC is visualized after transfected HeLa cells were IPd with anti-HNRPC and immunoblotted with anti-V5. Anti-mouse IgG and anti-V5 antibodies were used as negative and positive controls, respectively. C. ChIP was successfully performed using the

FIG. 12 depicts sequential measurements of mAb affinity using the oblique-incidence reflectivity difference (OIRD) method. Red, blue, and black curves represent smoothened and averaged Im{OIRD} values obtained by probing a pilot IgG microarray with anti-rabbit, -mouse, and -human secondary antibodies, respectively. Dotted red lines indicate estimated starting point of the saturation phase.

DETAILED DESCRIPTION

The present invention generally relates to libraries of antibodies, including methods and systems to produce, generate, characterize, and utilize antibodies. The antibodies can be highly specific. The library can comprise of a plurality of different antibodies, where the antibodies are produced by the same platform. The library can comprise plurality of different antibodies, wherein within the plurality or a subset of the plurality, each antibody is a monospecific antibody; binds a native form of its target protein; is a monoclonal antibody; is an immunoprecipitating antibody; is an IgG antibody or antibody of IgG isotype; has a binding affinity for its target that is similar to that of another antibody of the plurality of antibodies, have a binding affinity of at least 10⁻⁷M (K_(D)) for its target; or any combination thereof.

Platform

The library of antibodies can comprise a plurality of different antibodies produced by the same platform. In one embodiment, the library of antibodies comprises a plurality of different antibodies wherein at least 10% of said plurality is produced by the same platform. For example, the library can comprise a plurality of different antibodies wherein at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of said plurality are antibodies produced by the same platform.

Antibodies are considered to be produced by the same platform when a first antibody and second antibody is produced from the same protocol. For example, the plurality of antibodies can be produced by the platform as depicted in FIG. 1A and/or B. In one embodiment, as depicted in FIG. 1A, in step 102, an animal can be immunized with a plurality of antigens. The animal can be a non-human animal, such as a bovine, avian, canine, equine, feline, ovine, porcine, or primate animal. The animal can be a mammal, such as a mouse, rat, rabbit, cat, dog monkey, or goat.

The plurality of antigens can comprise purified or non-purified samples, such as purified or non-purified cells, proteins, peptides or nucleic acids. In another embodiment, the plurality of antigens can comprise non-purified samples, such as a crude lysate or unpurified cell, protein, peptide, or nucleic acid samples.

The plurality of antigens can comprise a biological sample. For example, the plurality of antigens can comprise a single cell or multiple cells, proteins, representative peptides, or tissues from an organism. The organism can be a human or non-human. The non-human organism can be a mammal, such as a mouse, rat, rabbit, cat, dog, monkey, or goat. The biological sample can be a tissue, blood, sera, plasma, urine, cerebrospinal fluid (CSF), sputum, saliva, bone marrow, synovial fluid, aqueous humor, amniotic fluid, cerumen, breast milk, broncheoalveolar lavage fluid, semen, prostatic fluid, Cowper's fluid, pre-ejaculatory fluid, female ejaculate, sweat, tears, cyst fluid, pleural fluid, peritoneal fluid, pericardial fluid, lymph, chyme, chyle, bile, interstitial fluid, menses, pus, sebum, vaginal secretion, mucosal secretion, stool water, pancreatic juice, lavage fluid from sinus cavities, bronchopulmonary aspirate, blastocyl cavity fluid, or umbilical cord blood. In one embodiment, the biological sample can be substantially depleted of a common serum protein, such as, but not limited to, albumin or IgG. Depletion can comprise filtration, fractionation, or affinity purification.

The biological sample can comprise a cell, such as a stem cell, undifferentiated cell, differentiated cell, or cell from a diseased subject or subject with a specific condition. The disease or condition can be a cancer, inflammatory disease, immune disease, autoimmune disease, cardiovascular disease, neurological disease, infectious disease, metabolic disease, or perinatal condition. For example, the cancer can be breast cancer, ovarian cancer, lung cancer, colon cancer, colorectal cancer, prostate cancer, melanoma, pancreatic cancer, brain cancer hematological malignancy, hepatocellular carcinoma, cervical cancer, endometrial cancer, head and neck cancer, esophageal cancer, gastrointestinal stromal tumor (GIST), renal cell carcinoma (RCC) or gastric cancer.

The plurality of antigens can also comprise samples produced in bacteria (such as, but not limited to, E. coli), yeast, mammalian, or insect cells, such as proteins being overexpressed by the organisms. The antigens, purified or non-purified, such as in the form of an overexpressing cell or cell mixture, expressing the antigens of interest, can be used to immunize the animals

The plurality of antigens can comprise at least 11,000 different antigens, such as at least 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 different antigens.

In step 104, antibody-generating cells, such as lymphoid cells, from the animal can then be isolated for producing a plurality of antibodies. The antibody-generating cell can be used to generate a hybridoma. The antibody-generating cell can be a B-cell. The B-cell can be fused to a myeloma cell to create a hybidoma. Examples of myeloma cells include, but are not limited to, NS-1, P3U1, SP2/0, AP-1 and the like cells.

In step 106, the antibody-producing cells, such as hybridoma cells, can then be used to generate clonal lines. For example, hybridoma cells can be placed on semisolid media to rapidly generate clonal lines. Fluorescently-tagged antigens or isotype-specific probes can be used to isolate the clones of interest for characterization and expansion.

In step 108, the clones of interest are probed against a library of antigens, to detect the antigen each antibody recognizes and at the same time gain information as to which antigens it does not react to (eliminate false positives). The library of antigens can represent at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome. The library of antigens can represent a substantial portion or an entire organism's proteome, such as a bacterial, viral, fungal proteome. The library of antigens can represent a substantial portion or an entire proteome of an insect or mammal, such as a mouse, rat, rabbit, cat, dog, monkey, goat, or human. For example, the library of antigens can comprise at least 11,000, 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 different antigens. The library of antigens can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5. The library of antigens can also comprise a fusion protein library that represents an organism's proteome in unpurified form, such as a collection of overexpressing cells (E. coli, yeast, mammalian, insect, or other organism).

Probing can be performed by arraying the cells overexpressing an antigen, such as a fusion protein, or cells of different cell lines (such as cancer cell lines), and testing the hybridoma supernatants against the the arrayed cells. The arrayed cells can be permeabilized. Probing can also be performed by fluorescence flow cytometry and the target identified by PCR or sequence analysis of recombinant DNA in the cell.

In step 110, antibodies that have the desired profile. The antibodies that are selected can be highly specific monoclonal antibodies that recognize only one target and do not cross react with the other targets in the proteome library of that organism. The cell lines that secrete these monoclonal antibodies can be expanded. The antibodies produced by the same platform or protocol can be used to produce or form a library of antibodies.

Antibodies can also be produced by the same platform when the antibodies are produced by the same method or protocol, such as described further below, in methods of producing a library.

Monospecificity

The library of antibodies can comprise a plurality of different antibodies, each antibody having a particular binding specificity for its target. For example, the library of antibodies can comprise a plurality of different antibodies, wherein the antibodies are monospecific. In one embodiment, the library of antibodies comprises a plurality of different antibodies wherein at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality of antibodies is monospecific.

An antibody is monospecific if the antibody has an A value of greater than 6 and an S value of greater than 3 for a protein or antigen when incubated on array comprising the antigens listed on Table 5. The number of standard deviations above mean signal intensity across the entire array for an antibody is a value termed A. The difference between the top signal and the second-highest signal on the array when the signal intensities are rank ordered for the antibody against the entire array is the S value. For example, the A and S value can be calculated by combining individual supernatants from antibody-producing cells or hybridomas into sets of 12×12 two-dimensional pools, and these pools are incubated on an array (such as a human proteome microarrays), and the antibodies are labeled (such as by a Cy5-coupled anti-IgG secondary antibody, or any other method of detecting an antibody). Following washing and scanning, the signal intensity for each spot (representing antibody binding to a protein or antigen on the array) as the ratio of foreground to background signal. The number of standard deviations above mean signal intensity across the entire array is a value termed A. Duplicate spots (for each duplicate pair of proteins or antigens) for which A>3 are flagged and results deconvoluted to identify proteins or antigens that are present at the intersection of a single horizontal and single vertical pool, and thus recognized by an individual monoclonal antibody. Each candidate highly specific monoclonal antibody (ie. A>3) is tested individually against the entire array, and A measured for each spotted protein. The signal intensities are then rank ordered and the difference between the top signal and the second-highest signal on the array is calculated, giving the S value. Monoclonal antibodies in which A>6 and S>3 are identified as monospecific monoclonal antibodies (mMAbs). Dispecific monoclonal antibodies (dMAbs) bind intensely to two different proteins on the array and have A>6 and S<3.

In some embodiments, the mMAbs can have an A value of greater than 6, 7, 8, 9, 10, 20, 30, 40, 50, 60, 70, 80, 90, or 100 and/or an S value of greater than 3, 4, 5, 6, 7, 8, 9, 10, 20, 30, 40, 50, 60, 70, 80, 90, or 100.

In one embodiment, the array for determining the monospecificity of an antibody is comprises an organism's proteome library, such as at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome. The library of antigens can represent a substantial portion or an entire organism's proteome, such as a bacterial, viral, fungal proteome. The library of antigens can represent a substantial portion or an entire proteome of an insect or mammal, such as a mouse, rat, rabbit, cat, dog, monkey, goat, or human. For example, an organism's proteome library can comprise at least 11,000, 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 different antigens. The organism's proteome library can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5.

Binding Affinity

The library of antibodies can comprise a plurality of different antibodies have a particular binding affinity its target. For example, the library can comprise a plurality of different antibodies wherein at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality has a particular binding affinity. For example, the plurality of antibodies can have a binding affinity as determined by its dissociation constant (K_(D)), of at least 10⁻⁷M, such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹ M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M, for its target protein.

The plurality of antibodies can have a binding affinity as measured by its association rate constant (k₀₁₁), wherein the plurality of antibodies have a binding affinity of at least 10⁴ M⁻¹s⁻¹, at least 5×10⁴ M⁻¹ s⁻¹, at least 10⁵ M⁻¹ s⁻¹, at least 5×10⁵ M⁻¹s⁻¹ at least 10⁶ M⁻¹s⁻¹ at least 5×10⁶ M⁻¹s⁻¹ at least 10⁷ M⁻¹s⁻¹ at least 5×10⁷ M⁻¹s⁻¹, or at least 10⁸ M⁻¹s⁻¹. The plurality of antibodies can have a binding affinity as measured by its dissociation rate constant (k_(off)), wherein the plurality of antibodies have a binding affinity of less than 10³ M⁻¹ s⁻¹ less than 5×10³ M⁻¹s⁻¹ less than 10⁴ M⁻¹ s⁻¹, less than 5×10⁴ M⁻¹s⁻¹ less than 10⁵ M⁻¹s⁻¹ less than 5×10⁵ M⁻¹s⁻¹, less than 10⁶ M⁻¹ s⁻¹, less than 5×10⁶ M⁻¹ s⁻¹, less than 10⁷ M⁻¹s⁻¹, less than 5×10⁷ M⁻¹s⁻, or less than 10⁸ M⁻¹s⁻¹, less than 5×10⁷ M⁻¹s⁻, less than 10⁸ M⁻¹s⁻¹, less than 5×10⁸ M⁻¹s⁻, less than 10⁹ M⁻¹s⁻¹, less than 5×10⁹ M⁻¹s⁺, or less than 10¹⁰ M⁻¹s⁻¹.

The binding affinity can be determined by surface plasmon resonance, chromatography or any other methods known in the art. Binding affinity can also be determined by optically, such as by using real-time and/or label-free methods of detecting biomolecule interactions. In one embodiment, oblique-incidence reflectivity different (OIRD) is used.

The library of antibodies can comprise a plurality of different antibodies that binds native form of its target protein. For example, the library can comprise a plurality of different antibodies wherein at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality binds a native form of its target protein. In one embodiment, the plurality of antibodies that binds a native form of its target protein does not bind a denatured form of its target protein under the same binding conditions.

The library of antibodies can comprise a plurality of different antibodies, wherein one or more antibodies of the library have a binding affinity for its target that is similar to the binding affinity of another antibody of the plurality. For example, the library of antibodies can comprise a first antibody and a second antibody, wherein the first antibody has a binding affinity for a first protein that similar to the binding affinity of the second antibody to a second protein. One antibody of the library can have a binding affinity for its target that is within at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, or 20% of the binding affinity of one or more other antibodies of the library. The first antibody of the library can have a binding affinity for its target that is within at least 20% of the binding affinity of one or more other antibodies of the library. In one embodiment, the library of antibodies can comprise a plurality of different antibodies, wherein at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the different antibodies have a binding affinity for its target proteins that is within at least 20% of the binding affinity of the rest of the plurality of different antibodies to their respective target protein.

Proteome

Also provided herein is a library of antibodies can comprise a plurality of different antibodies that binds a portion of an organism's proteome. The plurality of different antibodies can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome. For example, the plurality of different antibodies can bind at least 11,000, 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 proteins of an organism. The proteome can be a bacterial, viral, fungal proteome. The proteome can be of an insect or mammal, such as a mouse, rat, rabbit, cat, dog, monkey, goat, or human. In some embodiments, the proteome is a human proteome.

For example, the plurality of different antibodies can bind at least 0.5% of the human proteome. In one embodiment, the plurality of different antibodies can bind at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome. The plurality of different antibodies can bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5.

Other Antibody Characteristics

The library of antibodies can also comprise a plurality of different antibodies, wherein the antibodies are IgG antibodies (e.g. antibodies of IgG isotype). For example, a library of antibodies can comprise a plurality of different antibodies, wherein at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the antibodies is an IgG antibody or antibody of IgG isotype.

The library of antibodies can also comprise a plurality of different antibodies, wherein the antibodies are immunoprecipitating antibodies. For example, a library of antibodies can comprise a plurality of different antibodies, wherein at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the antibodies is an immunoprecipicating antibody. An immunoprecipicating antibody is an antibody that can immunoprecipitate a target protein from a cell homogenate as compared to a no antibody negative control and an anti-V5 antibody positive control. Detection of the immunoprecipitated target can be by Western blot. The immunopreiciptation can be carried out with cleared cell lysate and approximately 2 μg of antibody, followed by incubation for 2 hours at 4° C., then addition of a substrate to bind any antibody-protein complex (such as protein-G Dynabead), and then incubation for an additional 2 hours at 4° C. After incubation the substrate is washed, such as with ice cold TBST twice, the substrate transferred to a new reaction vessel, washed again with ice cold TBST, before being subjected to SDS-PAGE and Western blot analysis.

Biological Pathways

In one aspect, the present invention relates to a library of antibodies comprising a plurality of antibodies that are specific to antigens of a common pathway. Antigens belong to a common pathway when they share one or more attributes in common in a gene ontology, a collection that assigns defined characteristics to a set of genes and their products. The ontology administered by the Gene Ontology (“GO”) Consortium is particularly useful in this regard. Antigens belonging to common pathways can be identified by searching a gene ontology, such as GO, for genes sharing one or more attributes. The common attribute could be, for example, a common structural feature, a common location, a common biological process or a common molecular function.

The wealth of information that exists in published, peer-reviewed literature concerning the function of human genes and proteins has been organized and curated using a coordinated system of controlled vocabulary that is administered by the Gene Ontology (GO) Consortium (http://www.geneontology.org/). Of the approximately 40,000 transcribed units in the human genome, approximately 20,000 of those code for annotated proteins, and approximately 14,000 of those proteins have a functional annotation in the GO database. The functional annotations contained in the GO database are organized in a hierarchical manner, and it is possible to access this information from the GO database and search for all of the genes in the human genome that are annotated to be involved in the same biological process, reside in the same cellular component, or perform the same molecular function.

In some embodiments, antigens in a common pathway are the expression product of genes involved in the same biological process or molecular function as annotated by a gene ontology. One example of this are genes involved in the response to DNA damage. Another example is gene products of transcription factors, such as of a particular tissue, cell type or organ. One example is gene products of transcription factors of the brain.

In some embodiments, antigens in a common pathway are gene products of genes which are all bound by the same transcription factor protein, complex of transcription factor proteins, other nucleic acid binding proteins, or other molecule. These interactions may occur in a living cell (in vivo) or in a solution of purified molecules (in vitro). For instance, all of the gene products of the genes bound by the hypoxia inducible transcription factor protein.

In some embodiments, antigens in a common pathway are the gene products of genes whose transcript levels or proteins levels change upon treatment or exposure to the same stimulus and are thus co-regulated. For example all of the antigens that are induced or repressed upon treatment to UV radiation.

In some embodiments, antigens in a common pathway are antigens that contain similar sequence features. These features may be a DNA sequence motif, collection of DNA sequence motifs, or enrichment of higher order sequence features that are distinguishable from a background model of random genomic sequences. As used herein, a sequence motif is a string of 2 or more nucleic acid bases (A, T, C, or G). A DNA sequence motif can either be defined by a consensus sequence or a probability matrix where the identity of each base at each position of a motif is defined as a probability.

In some embodiments, antigens in a common pathway could be the gene products of genes whose sequences, transcripts or proteins are connected via metabolic transformations and/or physical protein-protein, protein-DNA and protein-compound interactions. Enzymes catalyze these reactions, and often require dietary minerals, vitamins and other cofactors in order to function properly. Because of the many chemicals that may be involved, pathways can be quite elaborate.

In some embodiments, the members of the pathway share a common structural or functional attribute. For example, the proteins could share a common sequence motif, such as a zinc finger or a transmembrane region.

In some embodiments, the antigens in a common pathway belong to the same signal transduction pathway. Typically, in biology signal transduction refers to any process by which a cell converts one kind of signal or stimulus into another, most often involving ordered sequences of biochemical reactions inside the cell that are carried out by enzymes, activated by second messengers resulting in what is thought of as a signal transduction pathway. Usually, signal transduction involves the binding of extracellular signaling molecules (or ligands) to cell-surface receptors that face outwards from the plasma membrane and trigger events inside the cell. Additionally, intracellular signaling cascades can be triggered through cell-substratum interactions, as in the case of integrins which bind ligands found within the extracellular matrix. Steroids represent another example of extracellular signaling molecules that may cross the plasma membrane due to their lipophilic or hydrophobic nature. Many steroids, but not all, have receptors within the cytoplasm and usually act by stimulating the binding of their receptors to the promoter region of steroid responsive genes. Within multicellular organisms there are a diverse number of small molecules and polypeptides that serve to coordinate a cell's individual biological activity within the context of the organism as a whole. Examples of these molecules include hormones (e.g. melatonin), growth factors (e.g. epidermal growth factor), extra-cellular matrix components (e.g. fibronectin), cytokines (e.g. interferon-gamma), chemokines (e.g. RANTES), neurotransmitters (e.g. acetylcholine), and neurotrophins (e.g. nerve growth factor).

In addition to many of the regular signal transduction stimuli listed above, in complex organisms, there are also examples of additional environmental stimuli that initiate signal transduction processes. Environmental stimuli may also be molecular in nature or more physical, such as, light striking cells in the retina of the eye, odorants binding to odorant receptors in the nasal epithelium, bitter and sweet tastes stimulating taste receptors in the taste buds, UV light altering DNA in a cell, and hypoxia activating a series of events in cells. Certain microbial molecules e.g. viral nucleotides, bacterial lipopolysaccharides, or protein antigens are able to elicit an immune system response against invading pathogens, mediated via signal transduction processes.

Activation of genes, alterations in metabolism, the continued proliferation and death of the cell, and the stimulation or suppression of locomotion, are some of the cellular responses to extracellular stimulation that require signal transduction. Gene activation leads to further cellular effects, since the protein products of many of the responding genes include enzymes and transcription factors themselves. Transcription factors produced as a result of a signal transduction cascade can in turn activate yet more genes. Therefore an initial stimulus can trigger the expression of an entire cohort of genes, and this in turn can lead to the activation of any number of complex physiological events. These events include, for example, the increased uptake of glucose from the blood stream stimulated by insulin and the migration of neutrophils to sites of infection stimulated by bacterial products.

Most mammalian cells require stimulation to control not only cell division, but also survival. In the absence of growth factor stimulation, programmed cell death ensues in most cells. Such requirements for extra-cellular stimulation are necessary for controlling cell behavior in both the context of unicellular and multi-cellular organisms. Signal transduction pathways are so central to biological processes that it is not surprising that a large number of diseases have been attributed to their dysregulation.

In some embodiments, the invention provides methods and compositions including a library comprising a plurality of antibodies that are specific to antigens that are part of an oncology pathway. Antigens in an oncology pathway are those gene products of genes involve in the development of hyperplasia, neoplasia and/or cancer. Examples of oncology pathways include, but are not limited to, hypoxia, DNA damage, apoptosis, cell cycle, and p53 pathway.

In some embodiments, the invention provides methods and compositions including a library comprising a plurality of antibodies that are specific to antigens that that are part of a membrane pathway. Examples of membrane pathways include, but are not limited to, transport proteins, G-coupled receptors, ion channels, cell adhesion proteins and receptors pathways.

In some embodiments, the invention provides methods and compositions including a library comprising a plurality of antibodies that are specific to antigens that are part of a nuclear receptor pathway. Examples of antigens in a nuclear receptor pathway include, but are not limited to, gene products that are regulated by the glucocorticoid receptor protein, estrogen receptor protein, peroxisome proliferator-activated receptor protein, androgen receptor protein and transporter protein pathways, including ABC and SLC transporters.

In some embodiments, the invention provides methods and compositions including a library comprising a plurality of antibodies that are specific to antigens that are part of a neuronal pathway. Examples of antigens in a neuronal pathway include, but not limited to, gene products of genes expressed in neurons such as neurotransmitters and cell adhesion proteins.

In some embodiments, the invention provides methods and compositions including a library comprising a plurality of antibodies that are specific to antigens that are part of a vascular pathway. Examples of antigens in a vascular pathway include, but not limited to, antigens involved in angiogenesis, lipid metabolism, and inflammation.

In some embodiments, the invention provides methods and compositions including a library comprising a plurality of antibodies that specific to antigens that are part of a signaling pathway. Examples of antigens in a signaling pathway include, but are not limited to, gene products involved in cell-to-cell signaling, hormones, hormone receptors, cAMP response, and cytokines.

In some embodiments, the invention provides methods and compositions including a library comprising a plurality of antibodies that specific to antigens that are part of an enzymatic pathway. Examples of antigens in a enzymatic pathway include, but are not limited to, gene products of genes involved in glycolysis, anaerobic respiration, Krebs cycle/Citric acid cycle, Oxidative phosphorylation, fatty acid oxidation (β-oxidation), gluconeogenesis, HMG-CoA reductase pathway, pentose phosphate pathway, porphyrin synthesis (or heme synthesis) pathway, urea cycle, photosynthesis (plants, algae, cyanobacteria) and chemosynthesis (some bacteria).

The present invention also provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antiges are part of a common pathway.

In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of an oncology pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a hypoxia pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a DNA-damage pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of an apoptosis pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a cell cycle pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a p53 pathway. In some embodiments, the inventions provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are differently selected from the group consisting of hypoxia pathway, DNA-damage pathway, apoptosis pathway, cell cycle pathway, and p53 pathway.

In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a membrane bound pathway.

In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a nuclear receptor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a glucocorticoid receptor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a peroxisome proliferator-activated receptor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of an estrogen receptor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of an androgen receptor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a cytochrome P450 receptor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a transporter receptor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are differently selected from the group consisting of glucocorticoid receptor pathway, peroxisome proliferator-activated receptor pathway, estrogen receptor pathway, androgen receptor pathway, cytochrome P450 pathway, and transporter pathways

In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a vascular pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a neuronal pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a transcription factor pathway. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of the antigens are part of a signaling pathway.

The present invention also provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a common pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of an oncology pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a hypoxia pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a DNA-damage pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of an apoptosis pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens are part of a cell cycle pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a p53 pathway in the genome.

In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a membrane bound pathway in the genome.

In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens are part of a nuclear receptor pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a glucocorticoid receptor pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a peroxisome proliferator-activated receptor pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a estrogen receptor pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of an androgen receptor pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a cytochrome P450 receptor pathway in the genome. In some embodiments, the invention provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a transporter receptor pathway in the genome.

The present invention also provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a neuronal pathway in the genome. The present invention also provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a signaling pathway in the genome. The present invention also provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a vascular pathway in the genome. The present invention also provides a library comprising a plurality of antibodies specific to a plurality of antigens in which the library represents at least 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99% or 100% of all the antigens that are part of a transcription factor pathway in the genome.

Method of Producing a Library of Antibodies

Also provided herein are methods of producing a library of antibodies. In one embodiment, the method comprises (a) immunizing an animal with a plurality of antigens; (b) isolating antibody-generating cells from the animal; (c) isolating a plurality of antibodies from the antibody-generating cells; (d) screening the plurality of antibodies of step c) with a protein array (such as a human proteome array); and (d) selecting an antibody that is monospecific for for a single target on the proteome array. In one embodiment, the method can further comprise pre-screening the plurality of antibodies from the antibody-generating cells prior to step c).

The animal can be a non-human animal, such as a bovine, avian, canine, equine, feline, ovine, porcine, or primate animal. The animal can be a mammal, such as a mouse, rat, rabbit, cat, dog monkey, or goat.

The animal can be immunized with a plurality of antigens that can comprise purified or non-purified samples, such as purified or non-purified cells, proteins, peptides or nucleic acids. In another embodiment, the plurality of antigens can comprise non-purified samples, such as a crude lysate or unpurified cell samples, protein samples, peptide samples, or nucleic acid samples. The plurality of antigens can comprise a biological sample. For example, the plurality of antigens can comprise a single cell or multiple cells, proteins, representative peptides, or tissues from an organism, such as a bovine, avian, canine, equine, feline, ovine, porcine, or primate animal. The organism can be a human or non-human. The non-human organism can be a mammal, such as a mouse, rat, rabbit, cat, dog, monkey, or goat.

The biological sample can be a tissue, blood, sera, plasma, urine, cerebrospinal fluid (CSF), sputum, saliva, bone marrow, synovial fluid, aqueous humor, amniotic fluid, cerumen, breast milk, broncheoalveolar lavage fluid, semen, prostatic fluid, Cowper's fluid, pre-ejaculatory fluid, female ejaculate, sweat, tears, cyst fluid, pleural fluid, peritoneal fluid, pericardial fluid, lymph, chyme, chyle, bile, interstitial fluid, menses, pus, sebum, vaginal secretion, mucosal secretion, stool water, pancreatic juice, lavage fluid from sinus cavities, bronchopulmonary aspirate, blastocyl cavity fluid, or umbilical cord blood. In one embodiment, the biological sample can be substantially depleted of a common serum protein, such as, but not limited to, albumin or IgG. Depletion can comprise filtration, fractionation, or affinity purification.

The biological sample can comprise a cell, such as a stem cell, undifferentiated cell, differentiated cell, or cell from a diseased subject or subject with a specific condition. The disease or condition can be a cancer, inflammatory disease, immune disease, autoimmune disease, cardiovascular disease, neurological disease, infectious disease, metabolic disease, or perinatal condition. For example, the cancer can be breast cancer, ovarian cancer, lung cancer, colon cancer, colorectal cancer, prostate cancer, melanoma, pancreatic cancer, brain cancer hematological malignancy, hepatocellular carcinoma, cervical cancer, endometrial cancer, head and neck cancer, esophageal cancer, gastrointestinal stromal tumor (GIST), renal cell carcinoma (RCC) or gastric cancer.

The plurality of antigens can also comprise samples produced in bacteria (such as, but not limited to, E. coli), yeast, mammalian, or insect cells, such as proteins being overexpressed by the organisms. The antigens, purified or non-purified, such as in the form of an overexpressing cell or cell mixture, expressing the antigens of interest, can be used to immunize the animals

The plurality of antigens can comprise at least 11,000 different antigens, such as at least 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 different antigens. In some embodiments, said plurality of antigens comprises at least 0.5% of the human proteome. The plurality of antigens can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome. The plurality of antigens can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome. The plurality of antigens can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of proteins listed in Table 5. The library of antigens can also comprise a fusion protein library that represents an organism's proteome in unpurified form, such as a collection of overexpressing cells (E. coli, yeast, mammalian, insect, or other organism).

The antibody-generating cells from the animal can be lymphoid cells, such as B-cells. The antibody-generating cell can be used to generate a hybridoma, for example, fused to an immortal cell such as a myeloma cell, to create a hybidoma.

In one embodiment, a pre-screening step is performed, wherein a plurality of antibodies from the antibody-generating cells are screened prior to isolating a plurality of antibodies from the antibody-generating cells. Pre-screening can be performed by using the serum or supernatant of the antibody-producing cells to determine binding of antibodies from said antibody-generating cells with a mixture comprising one or more target antigens, such as native antigens or proteins. The pre-screening can be performed using immunohistochemistry, immunocytochemistry, ELISA, chromatography, or any other suitable methods known in the art to determine binding. Pre-screening can be used to select the antibody-generating cells (which can include antibody-secreting cells that have been fused to immortalized cells, such as hybridomas), for further screening, such as by a proteome array as described herein.

The mixture can comprise a crude lysate, cell, protein, peptide, or nucleic acid. The mixture can comprise a biological sample, such as a tissue, blood, sera, plasma, urine, cerebrospinal fluid (CSF), sputum, saliva, bone marrow, synovial fluid, aqueous humor, amniotic fluid, cerumen, breast milk, broncheoalveolar lavage fluid, semen, prostatic fluid, Cowper's fluid, pre-ejaculatory fluid, female ejaculate, sweat, tears, cyst fluid, pleural fluid, peritoneal fluid, pericardial fluid, lymph, chyme, chyle, bile, interstitial fluid, menses, pus, sebum, vaginal secretion, mucosal secretion, stool water, pancreatic juice, lavage fluid from sinus cavities, bronchopulmonary aspirate, blastocyl cavity fluid, or umbilical cord blood. In one embodiment, the biological sample can be substantially depleted of a common serum protein, such as, but not limited to, albumin or IgG. Depletion can comprise filtration, fractionation, or affinity purification. The biological sample can comprise a cell, such as a stem cell, undifferentiated cell, differentiated cell, or cell from a diseased subject or subject with a specific condition

A plurality of antibodies from the antibody-generating cells can be isolated, with or without a previous pre-screening step, before being subjected to a screening with an entire, or portion of, a proteome of an organism. For example, the isolated antibodies can be screened with at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome. For example, the isolated antibodies can be screened with at least 11,000, 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 proteins of an organism. The proteome can be a bacterial, viral, fungal proteome. The proteome can be of an insect or mammal, such as a mouse, rat, rabbit, cat, dog, monkey, goat, or human. In some embodiments, the proteome is of a human.

For example, the isolated antibodies can be screened with at least 0.5% of the human proteome. In one embodiment, the isolated antibodies is screened with at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome. The isolated antibodies can be screened with at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5. The proteome, or portion thereof, that is used to screen the antibodies can be present on an array.

After screening, an antibody can be selected based on its binding profile. For example, an antibody can be selected if it binds to a single target of the proteome, such as to a single target of a human proteome array, for a library described herein.

The method can be used to perform high-through production of antibodies. For example antigens to immunize mice can be produced in a high-throughput manner. This can be done by: 1) directed production of recombinant proteins from a gene expression library, where proteins of interest can be expressed as needed or through the use of whole heterologous cells, tissues, or crude or enriched cell extracts from the target species (an undirected approach), or whole mammalian cells engineered to express a heterologous protein (a directed approach). The extracts for injection can include subcellular components, such as cell and intracellular membranes, organelles, particles, or protein complexes and may be prepared using differential centrifugation or other well-known methods. These immunizations with complex mixtures of proteins may eventually produce antibodies against the most highly immunogenic proteins; in this event, the antigen sources can be immunodepleted using previously isolated antibodies to remove any especially antigenic proteins. In addition, both soluble and membrane proteins can be chromatographed in either their native or denatured state(s), by size-exclusion, ion-exchange, hydrophobic or affinity chromatography or by using individually collected small fractions to immunize with dozens to hundreds rather than thousands of proteins. Similarly, simple ammonium sulfate fractionation of extracts will provide a wide variety of antigen subsets. Specific techniques to target specific classes of proteins can be used. For example, proteins involved in SNO signaling may be purified by Immobilized Metal Affinity Chromatography (IMAC) and eluted metal-free proteins may then be used as antigens for immunization, or phosphoproteins may be bound to Ti_(O2) affinity matrices and thereby greatly enriched. Native proteins isolated or obtained directly from living or fixed cells can be preferred sources of immunogens.

The high-throughput method can also comprise a short timescale immunization to produce antibody-secreting lymphoid cells. For example, animals can be immunized with multiple antigens and adjuvant preparations by way of the rear footpads. Popliteal lymph nodes are collected from 7 to 21 days post-immunization. Lymph nodes in immunized animals are directly revealed by injection with Evans blue at the footpad.

The high-throughput method can also comprise generating the antibodies in GST-tolerant mice. Since many antigens are expressed as GST fusions, a line of GST-expressing mice (mice that actively express GST from S. japonicum) can be used to increase the yield of specific antibodies raised against the non-GST components of the fusion proteins and eliminate generation of anti-GST antibody.

A high-throughput method for producing antibodies can also comprise creation of cell fusions/hybridomas for antibody production. Primed lymphoid cells and myeloma cells are fused and fusion products are either plated onto semisolid medium (methylcellulose) containing fluorescently tagged antibodies that recognize the desired subclass of immunoglobulin molecules, or into semisolid media containing fluorescently tagged antigens that will mark colonies secreting the desired antibodies. A combination of the above methods may also be used. Fluorescently marked colonies are rescued from semisolid medium to liquid medium, using an inverted fluorescence microscope in combination with hand picking using Drummond microcapillary and Drummond WireTrol devices, followed by outgrowth of the individual clones.

For the monoclonal antibodies generated in the high-throughput method, using either recombinant or native proteins, the responsible antigen can be identified by protein microarray deconvolution. Single-step deconvolution can be performed.

For example, when whole cells or cell lysates are used to generate hybridomas, a two-dimensional pooling strategy is employed to reveal identity of antigens that each monoclonal antibody would recognize. Supernatants of hybridomas are arrayed in two-dimensional grids and pooled both horizontally and vertically in 3-by-3 to 100-by-100 pool sizes. Three-dimensional pooling strategies can also be performed in which hybridomas are arrayed in plate sets to generate plate pools and horizontal and vertical pools in 3-by-3-by-3 to 100-by-100-by-100 format. The resulting pools are hybridized individually to the protein microarrays and scored using microarray analysis software. The shared positives (hits) of each horizontal and vertical pair or those at each 3-way intersection of plate, horizontal and vertical pools (called a trio) in two- and three-dimensional designs, respectively, are identified as the antigens recognized by the monoclonal antibody at the intersection of the same pairs or trios. When necessary, the identified antigens are validated by probing the microarrays with the corresponding antibodies. The pooling strategy can reduce the cost of characterizing or producing antibodies because the cost of the arrays is high, and use of a e.g. 10 by 10 pool reduces the number of arrays needed to analyze 100 clones from 100 to 20; for a 20×20 pool it reduces the number of arrays needed from 400 to 40. The 3-dimensional pools, for example, can screen a pool of 4096 hybridomas, while a 16-by-16-by-16 3-D strategy requires only 48 arrays. Using the 10-by-10 strategy, 820 arrays would can be used. A 3-D pooling strategy (12-by-8-by-12) based on 96-well plates is depicted in FIG. 2.

Characterization of the monoclonal antibodies generated in the high-throughput method can be performed using whole proteome microarrays. The microarrays can be used to determine the specific antigens to which a given monoclonal antibody binds. Critical quality information about monoclonal antibody affinity, potential cross reactivity or lack of crossreactivity with other antigens are all provided by an array analysis.

Production of monoclonal antibody in the high-throughput method can be from fusion clones. Monoclonal antibodies are produced in vitro or in vivo in the desired quantities. These can be purified using various well-established methods.

On the basis of the characterization of monoclonal antibodies using protein microarrays, monoclonal antibodies of high quality (e.g., high affinity and low cross reactivity) can be selected and used to produce antibody arrays. The antibodies are selected and their concentrations normalized to a similar titer. They can be arrayed in a multiwell format (e.g. 96-384- or 1562-well) with proper positive (e.g., diluted human IgG) and negative (e.g., human IgM and BSA) controls to fabricate antibody microarrays using a microarray robot (e.g., Nanoprint, Arraylt, Inc.). The arrangement of the monoclonal antibodies in different microarray configurations may be customized to facilitate a range of proteome-wide studies.

Method of Using a Library of Antibodies

Also provided herein is a method of identifying an antibody for a target comprising contacting a target with a library of antibodies, determining binding between the target and the plurality of antibodies; and identifying an antibody for the target when the target binds to an antibody of the library. A method of identifying a target comprising contacting a target with a library of antibodies, determining binding between the target and the plurality of antibodies; and identifying the target antibody when the target binds to an antibody of the library, is also provided. The library of antibodies can be attached to a substrate such that the target is contacted with an array comprising the library of antibodies.

The library can comprise of a plurality of different antibodies, such as described above. For example, the library of antibodies can comprise antibodies that are produced by the same platform. The library can comprise a plurality of different antibodies, wherein within the plurality or a subset of the plurality (such as at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 99% or 100% of the plurality), the antibodies are produced by the same platform, are monospecific, bind a native form of its target protein; are monoclonal; are immunoprecipitating antibodies; are IgG antibodies (e.g. antibodies of IgG isotype); have a binding affinity for its target that is similar to that of another antibody of the plurality of antibodies (for example, within at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, or 20%); each antibody is a have a binding affinity of at least 10⁻⁷M (K_(D)) (for example, such as at least 10⁻⁸M, 10⁻⁹M, 10⁻¹⁰M, 10⁻¹¹M, 10⁻¹²M, 10⁻¹³M, 10⁻¹⁴M, 10⁻¹⁵M, or 10⁻¹⁶M) for its target; or any combination thereof. The library may comprise at least 50, 75, 100, 125, 150, 175, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, 725, 750, 775, 800, 825, 850, 875, 900, or 1000 different monoclonal antibodies, bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome (e.g. a human proteome), bind at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5, or any combination thereof.

Also provided herein is a method of identifying an antibody monospecific for a protein, such as a human protein, comprising: contacting a plurality of antibodies with a proteome array, such as a human proteome array; determining binding between the plurality of antibodies and the targets present on the proteome array; and identifying an antibody as monospecific. The array can comprise a plurality of antigens or proteins that comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome. For example, the proteome array can comprise at least 11,000, 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 proteins of an organism. The organism can be a bacterium, virus, or fungus. The organism can be of an insect or mammal, such as a mouse, rat, rabbit, cat, dog, monkey, goat, or human. For example, the proteome can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteome. The proteome array can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5.

Binding can be detected by techniques known in the art (e.g., radioimmunoassay, ELISA (enzyme-linked immunosorbant assay), “sandwich” immunoassays, immunoradiometric assays, gel diffusion precipitation reactions, immunodiffusion assays, in situ immunoassays (e.g., using colloidal gold, enzyme or radioisotope labels, for example), Western blots, precipitation reactions, agglutination assays (e.g., gel agglutination assays, hemagglutination assays, etc.), complement fixation assays, immunofluorescence assays, protein A assays, and immunoelectrophoresis assays.

Antibody binding can be detected by detecting a label on the primary antibody. Alternatively, the primary antibody is detected by detecting binding of a secondary antibody or reagent to the primary antibody. For example, the secondary antibody can be labeled. In some embodiments, an automated detection assay or high-throughput system is utilized. For example, in a capture micro-enzyme-linked immunosorbent assay (ELISA), an antibody/antigen reaction is made measurable by immobilization of the antibody and subsequent direct or indirect colorimetric, fluorescent, luminescent or radioactive detection of bound, labeled antigens. For example, the antigen can be labeled by biotin or other labels, which will allow downstream detection.

The immobilized antibodies will generally bind to a single antigenic determinant present. The antigenic determinant can be labeled, such as through labeling of the biomarker comprising the antigenic determinant. The specificity of this reaction will permit quantification in the ELISA measurements. The ELISA reaction can be used in a high throughput format to screen all hybridoma supernatants via the following steps. Screening assays built on other principles than an ELISA can be deployed (e.g., antibody microarrays, high-throughput screening based on MALDI/MS and/or multi-channel capillary electrophoresis). ELISA or microarray data are evaluated, e.g., by published methods. The goal of the data analysis process is the selection of hybridoma supernatants that show the best collection with an important clinical parameter and are specific to one of the analyte groups.

Microarray Substrate

In some embodiments the present invention provides an array (or microarray) comprising a library of antibodies and a substrate. In some embodiments, each antibody is immobilized on a substrate. The antibody may be reversibly or irreversibly immobilized on the substrate. The substrate can be planar or a particle and can comprise a solid or porous material. The substrate may be either organic or inorganic, biological or non-biological, or any combination of these materials.

In one embodiment, the substrate is transparent or translucent. The portion of the surface of the substrate on which the patches reside is preferably flat and firm or semi-firm. Numerous materials are suitable for use as a substrate. The substrate can comprise silicon, silica, glass, or a polymer. For instance, the substrate can comprise a material selected from a group consisting of silicon, silica, quartz, glass, controlled pore glass, carbon, alumina, titanium dioxide, germanium, silicon nitride, zeolites, and gallium arsenide. Many metals such as gold, platinum, aluminum, copper, titanium, and their alloys are also options for substrates of the array. In addition, many ceramics and polymers may also be used as substrates. Polymers which may be used as substrates include, but are not limited to, the following: polystyrene; poly(tetra)fluorethylene; (poly)vinylidenedifluoride; polycarbonate; polymethylmethacrylate; polyvinylethylene; polyethyleneimine; poly(etherether)ketone; polyoxymethylene (POM); polyvinylphenol; polylactides; polymethacrylimide (PMI); polyalkenesulfone (PAS); polyhydroxyethylmethacrylate; polydimethylsiloxane; polyacrylamide; polyimide; co-block-polymers; and Eupergit®. Photoresists, polymerized Langmuir-Blodgett films, and LIGA structures may also serve as substrates in the present invention.

In one embodiment, a microarray of distinct antibodies is bound on a glass slide coated with a polycationic polymer. A substrate is formed according to another aspect of the invention, and intended for use in detecting binding of target molecule to one or more distinct antibodies. In one embodiment, the substrate includes a glass substrate having formed on its surface, a coating of a polycationic polymer, preferably a cationic polypeptide, such as poly-lysine or poly-arginine. Formed on the polycationic coating is a microarray of distinct biopolymers, each localized at known selected array regions, such as regions.

The slide may be coated by placing a uniform-thickness film of a polycationic polymer, e.g., poly-1-lysine, on the surface of a slide and drying the film to form a dried coating. The amount of polycationic polymer added is sufficient to form at least a monolayer of polymers on the glass surface. The polymer film is bound to surface via electrostatic binding between negative silyl-OH groups on the surface and charged amine groups in the polymers. Poly-1-lysine coated glass slides may be obtained commercially, e.g., from Sigma Chemical Co. (St. Louis, Mo.).

A suitable microarray substrate is also made through chemical derivatization of glass. Silane compounds with appropriate leaving groups on a terminal Si will covalently bond to glass surfaces. A derivatization molecule can be designed to confer the desired chemistry to the surface of the glass substrate. An example of such a bifunctional reagent is amino-propyl-tri(ethoxy)silane, which reacts with glass surfaces at the tri(ethoxy)silane portion of the molecule while leaving the amino portion of the molecule free. Surfaces having terminal amino groups are suitable for adsorption of biopolymers in the same manner as poly-lysine coated slides. The identity of the terminal surface group can be modified by further chemical reaction. For example, reaction of the terminal amine in the above example with glutaraldehyde results in a terminal aldehyde group. Further layers of modification may be applied to achieve the desired reactivity before spotting the microarray, such as by application of a Protein A or Protein G solution to the silynated glass. Additional surfaces that bind polypeptides are nitrocellulose-coated glass slides, available commercially from Schleicher and Schuell, and protein-binding plastics such as polystyrene.

The spotted antibodies may be attached by either adsorption or covalent bonding Adsorption occurs through electrostatic, hydrophobic, Van der Waals, or hydrogen-bonding interactions between the spotted polypeptide and the array substrate. Simple application of the polypeptide solution to the surface in an aqueous environment is sufficient to adsorb the polypeptide. Covalent attachment is achieved by reaction of functional groups on the polypeptide with a chemically activated surface. For example, if the surface has been activated with a highly reactive electrophilic group such as an aldehyde or succinimide group, unmodified polypeptides react at amine groups, as at lysine residues or the terminal amine, to form a covalent bond.

To form the microarray, defined volumes of distinct biopolymers are deposited on the polymer-coated slide using any suitable method known in the art. According to an important feature of the substrate, the deposited antibodies remain bound to the coated slide surface non-covalently when an aqueous sample is applied to the substrate under conditions that allow binding of labeled ligands in the sample to cognate binding partners in the substrate array.

In some embodiments, each microarray contains at least 50, 60, 70, 80, 90, 100, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, or 1000 distinct antibodies per surface area of less than about 1 cm². In one embodiment, the microarray contains 50, 60, 70, 80, 90, 100, 150, 200, 250, 300, 350 or 400 regions in an area of about 16 mm², or 2.5×10³ regions/cm². Also in a preferred embodiment, the antibodies in each microarray region are present in a defined amount between about 0.1 femtomoles and 100 nanomoles.

Also in a preferred embodiment, the biopolymers have lengths of at least about 50 units, e.g. amino acids, nucleotides, etc., i.e., substantially longer than polymers which can be formed in high-density arrays by various in situ synthesis schemes.

Uses of the Microarrays

The microarrays of the invention can be used in medical diagnostics, drug discovery, molecular biology, immunology and toxicology.

Microarrays of immobilized antibodies prepared in accordance with the invention can be used for large scale binding assays in numerous diagnostic and screening applications. The multiplexed measurement of quantitative variation in levels of large numbers of targets (e.g. proteins) allows the recognition of patterns defined by several to many different targets (e.g., proteins). One can simultaneously assess many physiological parameters and disease-specific patterns.

One embodiment involves the separation, identification and characterization of proteins present in a biological sample. For example, by comparison of disease and control samples, it is possible to identify “disease specific proteins”. These proteins may be used as targets for drug development or as molecular markers of disease.

Antibody arrays can be used to monitor the expression levels of proteins in a sample where such samples may include biopsy of a tissue of interest, cultured cells, microbial cell populations, biological fluids, including blood, plasma, lymph, synovial fluid, cerebrospinal fluid, cell lysates, culture supernatants, amniotic fluid, etc., and derivatives thereof. Of particular interest are clinical samples of biological fluids, including blood and derivatives thereof, cerebrospinal fluid, urine, saliva, lymph, synovial fluids, etc. Such measurements may be quantitative, semi-quantitative, or qualitative. Where the assay is to be quantitative or semi-quantitative, it will preferably comprise a competition-type format, for example between labeled and unlabeled samples, or between samples that are differentially labeled.

Assays to detect the presence of target molecules to the immobilized polypeptides may be performed as follows, although the methods need not be limited to those set forth herein and include any suitable method known in the art.

Samples, fractions or aliquots thereof are added to a microarray comprising the antibodies. Samples may comprise a wide variety of biological fluids or extracts as described above. Preferably, a series of standards, containing known concentrations of control ligand(s) is assayed in parallel with the samples or aliquots thereof to serve as controls. The incubation time should be sufficient for target molecules to bind the polypeptides. Generally, from about 0.1 to 3 hr, usually 1 hr, but could be as long as one day or longer.

After incubation, the insoluble support is generally washed of non-bound components. Generally, a dilute non-ionic detergent medium at an appropriate pH, generally 7-8, is used as a wash medium. From one to six washes may be employed, with sufficient volume to thoroughly wash non-specifically bound proteins present in the sample.

In order to detect the presence of bound target, a variety of methods may be used. These fall into three general groups. The target itself may be labeled with a detectable label, and the amount of bound label directly measured. Alternatively, the labeled sample may be mixed with a differentially labeled, or unlabeled sample in a competition assay. In yet another embodiment, the sample itself is not labeled, but a second stage labeled reagent is added in order to quantitate the amount of ligand present.

Examples of labels that permit direct measurement of ligand binding include radiolabels, such as ³H or ¹²⁵I, fluorescers, dyes, beads, chemilumninescers, colloidal particles, and the like. Suitable fluorescent dyes are known in the art, including fluorescein isothiocyanate (FITC); rhodamine and rhodamine derivatives; Texas Red; phycoerythrin; allophycocyanin; 6-carboxyfluorescein (6-FAM); 2′,7′-dimethoxy-4′,5′-dichloro-6-carboxyfluorescein (JOE); 6-carboxy-X-rhodamine (ROX); 6-carboxy-2′,4′,7′,4,7-hexachlorofluorescein (HEX); 5-carboxyfluorescein (5-FAM); N,N,N′,N′-tetramethyl-6-carboxyrhodamine (TAMRA); sulfonated rhodamine; Cy3; Cy5; etc. Preferably the compound to be labeled is combined with an activated dye that reacts with a group present on the ligand, e.g. amine groups, thiol groups, aldehyde groups, etc.

Particularly where a second stage detection is performed, for example by the addition of labeled antibodies that recognize the target, the label can be a covalently bound enzyme capable of providing a detectable product signal after addition of suitable substrate. Examples of suitable enzymes for use in conjugates include horseradish peroxidase, alkaline phosphatase, malate dehydrogenase and the like. Where not commercially available, such antibody-enzyme conjugates are readily produced by techniques known to those skilled in the art. The second stage binding reagent may be any compound that binds the target molecules with sufficient specificity such that it can be distinguished from other components present. In a preferred embodiment, second stage binding reagents are antibodies specific for the ligand, either monoclonal or polyclonal sera, e.g. mouse anti-human antibodies, etc.

For an amplification of signal, the ligand may be labeled with an agent such as biotin, digoxigenin, etc., where the second stage reagent will comprise avidin, streptavidin, anti-digoxigenin antibodies, etc. as appropriate for the label.

Microarrays can be scanned to detect binding of the ligands, e.g. by using a scanning laser microscope, by fluorimetry, a modified ELISA plate reader, etc. For example, a scanning laser microscope may perform a separate scan, using the appropriate excitation line, for each of the fluorophores used. The digital images generated from the scan are then combined for subsequent analysis. For any particular array element, the ratio of the fluorescent signal with one label is compared to the fluorescent signal from the other label DNA, and the relative abundance determined.

The microarrays and methods of detecting target molecules may be used for a number of screening, investigative and diagnostic assays. In one application, an array of antibodies is bound to total protein from an organism to monitor protein expression for research or diagnostic purposes. Labeling total protein from a normal cell with one color fluorophore and total protein from a diseased cell with another color fluorophore and simultaneously binding the two samples to the same array allows for differential protein expression to be measured as the ratio of the two fluorophore intensities. This two-color experiment can be used to monitor expression in different tissue types, disease states, response to drugs, or response to environmental factors.

In screening assays, for example to determine whether a protein or proteins are implicated in a disease pathway or are correlated with a disease-specific phenotype, measurements may be made from cultured cells. Such cells may be experimentally manipulated by the addition of pharmacologically active agents that act on a target or pathway of interest. This application is important for elucidation of biological function or discovery of therapeutic targets.

For many diagnostic and investigative purposes it is useful to measurement levels of target molecules, e.g. proteins, in blood or serum. This application is important for the discovery and diagnosis of clinically useful markers that correlate with a particular diagnosis or prognosis. For example, by monitoring a range of antibody or T cell receptor specificities in parallel, one may determine the levels and kinetics of antibodies during the course of autoimmune disease, during infection, through graft rejection, etc. Alternatively, novel protein markers associated with a disease of interest may be developed through comparisons of normal and diseased blood sample, or by comparing clinical samples at different stages of disease.

Information on the protein expression in a genome of an organism can have a wide variety of applications, including but not limited to diagnosis and treatment of diseases in a personalized manner (also known as “personalized medicine”) by association with phenotype such as onset, development of disease, disease resistance, disease susceptibility or drug response. Identification and characterization of the proteins relevant to biological pathways in a genome of an organism in terms of cell- or tissue-specificity can also aid in the design of transgenic expression constructs for therapy with enhanced therapeutic efficacy and reduced side effects. Identification and characterization of protein expression in terms of cell- or tissue-specificity can also aid in the development of function markers for diagnosis, prevention and treatment of diseases. “Disease” includes but is not limited to any condition, trait or characteristic of an organism that it is desirable to change. For example, the condition may be physical, physiological or psychological and may be symptomatic or asymptomatic.

In another embodiment of the invention, the antibody arrays are used to detect post-translational modifications in proteins, which is important in studying signaling pathways and cellular regulation. Post-translational modifications can be detected using antibodies specific for a particular state of a protein, such as phosphorylated, glycosylated, farnesylated, etc.

The detection of these interactions between ligands and polypeptides can lead to a medical diagnosis. For example, the identity of a pathogenic microorganism can be established unambiguously by binding a sample of the unknown pathogen to an array containing many types of antibodies specific for known pathogenic antigens.

Kits

In one embodiment, a kit comprising a library of antibodies is provided. In some embodiments the library of antibodies is arrayed in a support, e.g., 96 or 384 wells. In one embodiment, a kit comprises a microarray of antibodies. The kit may further include: reporter assay substrates; reagents for induction or repression of a particular biological pathway (cytokines or other purified proteins, small molecules, cDNAs, siRNAs, etc.), and/or data analysis software.

In addition, kits are provided which comprise reagents and instructions for performing methods of the present invention, or for performing tests or assays utilizing any of the compositions, libraries, arrays, or assemblies of articles of the present invention. The kits may further comprise buffers, enzymes, adaptors, labels, secondary antibodies and instructions necessary for use of the kits, optionally including troubleshooting information.

In yet another embodiment, the kit may comprise a library of antibodies, such as described herein, and a library of antigens, such as a proteome of an organism. The kit may comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of an organism's proteome. The library of antigens can represent a substantial portion or an entire organism's proteome, such as a bacterial, viral, fungal proteome. The library of antigens can represent a substantial portion or an entire proteome of an insect or mammal, such as a mouse, rat, rabbit, cat, dog, monkey, goat, or human. For example, an organism's proteome library can comprise at least 11,000, 12,000, 13,000, 14,000, 15,000, 16,000, 17,000, 18,000, 19,000, or 20,000 different antigens. The organism's proteome library can comprise at least 0.5%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18%, 19%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 80%, 90%, or 100% of the human proteins listed in Table 5.

EXAMPLES Example 1: Subcloning 17,000 Full-Length Human ORFs into an Expression Vectors

A Gateway® ORF collection of ˜16,000 unique ORFs (Invitrogen, CA) was obtained along with an additional 1,000 full-length human ORFs were subcloned. A Gateway®-compatible expression vector for yeast (pEGH-A) was constructed that upon galactose induction produces N-terminal 6×His6::glutathione-S-transferase (GST) fusion proteins in yeast (FIG. 3). Subsequently, all ˜17,000 human ORFs was subcloned at a success rate of 99% as determined by restriction digestion. Specifically, three replicates of the collection were made, from one of which the Entry DNAs were extracted, and the quality of the plasmid DNA was checked on agarose gels. The resulting recombinants were then transformed into bacteria and single colonies were selected on Amp-containing plates. For each LR recombination, four single colonies were picked to generate glycerol stocks, two of which were further processed to extract plasmid DNAs in a 96-well format. The extracted plasmid DNAs were digested with a restriction enzyme to release the inserts, and run on agarose gels to examine the vector and insert sizes as an indicator of successful subcloning (FIG. 3). Each restriction event was scored based on expected insert sizes and the success rate was determined as 99.3%.

Sequencing of >200 random expression clones showed 100% of the sequences were correct. The confirmed expression constructs were rearrayed to generate a master set of expression clones for yeast. Similar large scale cloning was completed in a bacterial expression vector.

Example 2: Design and Fabrication of a 5000 Human Antigen Microarray

A pilot experiment was performed to test the ability to rapidly purify correctly folded recombinant proteins for microarray production. These proteins fall into five different functional categories: transcription factors and transcription co-regulators, RNA binding proteins, protein kinases, chromatin-associated and chromatin-modifying proteins, and mitochondrial proteins. Proteins were placed in these categories on the basis of primary sequence, literature, and Gene Ontology annotation. The ORFs expressed represented as many as 85% (in the case of transcription factors) of all human proteins in the relevant functional category. Over 90% of expressed proteins were purified at sufficient levels for array construction (Ho, S. W., et al., Linking DNA-binding proteins to their recognition sequences by using protein microarrays. Proc Natl Acad Sci USA, 2006. 103(26): p. 9940-5).

Several functional tests were performed to confirm that the expressed proteins were functional after being immobilized on solid surfaces. Autophosphorylation assays were performed on a kinase chip containing 119 individually purified protein kinases from yeast and observed that approximately 85% of the kinases showed detectable kinase activity (Zhu, H., et al., Analysis of yeast protein kinases using protein chips. Nat Genet, 2000. 26(3) p. 283-9.). In spite of being covalently linked to a solid surface, most of these protein kinases clearly maintained their enzymatic activity. Specific interactions between various DNA motifs and transcription factors was identified and profiled using a protein chip composed of ˜300 yeast transcription factors (Ho, S. W., et al., Linking DNA-binding proteins to their recognition sequences by using protein microarrays. Proc Natl Acad Sci USA, 2006. 103(26): p. 9940-5.). The interactions between DNA motifs and human transcription factors was also studied, in which a pilot protein chip composed of ˜1,000 human transcription factors was used to show that the known DNA motifs specifically bound to their documented transcription factors; conversely, and point mutations in these motifs dramatically reduced their binding affinity (Hu, S., et al., Profiling the human protein-DNA interactome reveals ERK2 as a transcriptional repressor of interferon signaling. Cell, 2009. 139(3): p. 610-22.).

Example 3: Fabrication of a Human Antigen Protein Chip

To purify the complete set of 17,000 human protein antigens from yeast cells, the entire master set of human ORFs was cloned in pEGH-A into yeast, single colonies were picked and glycerol stocks prepared. The yeast cells were induced for recombinant protein production and stored at −80° C. To monitor the quality of induced culture, 24 random strains were inoculated in duplicate for each batch of culture preparation and let them go through the protein purification step first. Using immunoblot and silver staining techniques, the success rate of culture induction was estimated (FIG. 4A). Success was indicated only when at least 85% of the purified proteins showed a major band at the expected MW range in both immunoblot and silver staining analyses. Otherwise, culture preparation for the failed batch was repeated. Using this standard, all 17,000 antigen proteins were purified at a success rate of 85%. The purified human antigen proteins were spotted using a microarrayer onto various glass surfaces (e.g., FAST, Ni-NTA and FullMoon) to produce the human antigen chips. The quality of the chips was monitored by probing the slides with anti-GST antibodies and Cy3-labeled secondary antibodies. The chips were scanned and signals acquired and analyzed using GenePix software. The results indicated that the chips were of high quality and >90% of the printed proteins produced signals significantly higher than background (FIG. 4B, C).

Example 4: Antibody Quality Profiling on an Antigen Microarray

Monoclonal antibodies against human proteins expressed in liver was performed using traditional methods (Hu, S., et al., A protein chip approach for high-throughput antigen identification and characterization. Proteomics, 2007. 7(13): p. 2151-61). Large amounts of monoclonal were purified from ascites and diluted 10,000-fold in PBS containing 1% BSA. To evaluate the quality (e.g., affinity and specificity) of the mAbs, a human liver protein chip was used. On the basis of a literature/database search, 1,058 full-length cDNAs that are known to be expressed in human liver were cloned into an expression vector that expresses these proteins as N-terminal GST fusion proteins. To fabricate the human liver protein chips, these genes were expressed and purified from yeast cells using glutathione affinity chromatography and spotted onto glass slides. Mouse IgG was also spotted on the chips to serve as a landmark. The amount of immobilized human liver proteins on the antigen microarray was visualized and quantified using anti-GST antibodies (FIG. 5A). The conclusion was 98.5% 1,042/1,058) of the proteins showed significant signals above the background and that the protein chips are of high quality.

To evaluate the specificity of several monoclonal antibodies generated against different human liver proteins, the chips were blocked with 1% BSA in PBS buffer at room temperature (RT) for a minimum of 1 hr with gentle shaking in a homemade, humidified chamber. Meanwhile, the monoclonal antibodies purified from ascites were diluted 20,000-fold in phosphate-buffered saline (PBS) buffer. After blocking, the diluted mAbs were added to different chips and incubated at RT for 30 min with gentle shaking. The chips were then washed three times in PBST (1% Tween 20) buffer for 10 min at 42° C. with shaking. Anti-mouse IgG antibodies labeled with Cy3 (Jackson Laboratories, USA, 11,000 dilution in PBS) were added to the chips and incubated in the dark at RT for 1 hr. The chips were then washed 3 times with pre-warmed PBS+0.1% Triton for 10 min each at 42° C. with gentle shaking. After rinsing twice in filter-sterilized, double-deionized water, chips were spun to dryness. To visualize the binding profiles, we scanned the chips with a microarray scanner and further analyzed the binding signals with the GenePix software. As shown in FIG. 5B, the specificity of the mAb generated against pirin was tested against 1,058 proteins spotted on a slide, and this mAb only recognized pirin. Because the amount of each spotted protein does not vary dramatically, this result indicated that the antibody is highly specific. Similar results were also obtained with mAbs generated against four other human proteins (FIG. 5C).

Example 5: Generation and Characterization of Monospecific Antibodies

Over 2,000 strong IgG-secreting monoclonal antibodies in response to immunization with both recombinant human proteins and live human cancer cell lines have been generated. Protein microarrays that contains 17,000 human proteins has been used to analyze the binding specificity of 88 of these monoclonal antibodies.

To reduce the number of microarrays used for this analysis, equal mixtures of supernatants from up to seven different hybridomas were used an intersectional analysis described schematically in FIG. 6 to interrogate the specificity of these pooled antibodies. Eleven of the 88 monoclonal antibodies are truly monospecific, in that only a single protein on the microarray is recognized by these monoclonal antibodies. Seven other monoclonal antibodies bound to only three different proteins on the array, showing highly restricted specificity. For four of the monospecific monoclonal antibodies, no commercially antibodies of any sort (polyclonal or monoclonal) are available, while it is not know whether any of the commercially available antibodies to the other seven are monospecific. A list of these monospecific monoclonal antibodies, and the commercially available antibodies which recognize them, is shown on Table 1. Antigens recognized by the 11 monospecific monoclonal antibodies are listed by Gene Symbol ID. The number of all commercially-available antibodies (both monoclonal and polyclonal) to that protein is also listed, along with the monoclonal antibodies to that antigen in parentheses.

TABLE 1 Antigens recognized by monospecific mAbs generated. Antigen recognized Number of all commercially-available by monospecific mAb Abs to antigen (mAbs to antigen) ZG16B 0 CAPZA3 16 (7)  C1orf123 0 LOC284361 0 COASY 37 (17) CA1 64 (19) TES 11 (3)  LSM6 7 (3) PRKCQ 70 (5)  C19orf47 0 SGCG 3 (2)

Example 6: Monoclonal Antibodies Against Human Brain-Expressed Transcription Factors

Antigen Production.

Human proteins are expressed from a proprietary expression vector in E. coli. As described previously, the human proteins are expressed and purified as N-terminus-tagged GST: His6 fusion proteins. As some human proteins are much easier to express and purify in large quantities than others from the bacterial host, a large-scale screening to determine which human chromosomal proteins fall in this category is performed. An extremely high-throughput protein purification protocol that allows purification of >4,000 individual proteins from E. coli within ten hours can be performed as depicted in FIG. 7 (Chen, C. S., et al., A proteome chip approach reveals new DNA damage recognition activities in Escherichia coli. Nat Methods, 2008. 5(1): p. 69, 74.). Using this protocol, the proteins of the ˜200 candidates that are easier to purify will be identified. Approximately 30% of the strains should yield 2 mg protein per 250 mL of culture, 60% should yield 0.5 mg protein/250 mL culture, and 40% should yield <0.1 mg protein/250 mL culture.

The “easier” higher yield proteins from larger bacterial culture is purified. In brief, the strains are activated in smaller overnight culture and inoculated into 250 mL media to a final OD₆₀₀ of ˜0.1 the next morning. After growing the cells to an OD₆₀₀ of 0.7-0.9 at 37° C. with shaking at 250 rpm, protein expression is induced with isopropyl β-D-thiogalactoside (IPTG) at a final concentration of 1 mM for ˜3.5 h. The cells are collected by centrifugation and resuspended at 4° C. in lysis buffer containing 50 mM NaH₂PO₄, pH 8, with 300 mM NaCl, 20 mM imidazole, CelLytic B (Sigma), lysozyme at 1 mg/ml, benzonase at 50 units/ml, proteinase inhibitor cocktail (Sigma), and 1 mM PMSF. After incubation on ice for 30 min, the cell debris is removed by centrifugation and pre-washed Ni-NTA Superflow (QIAGEN) is added to the cell lysates. After 40 min incubation on ice, the nickel resin is collected and washed three times with wash buffer I (50 mM NaH₂PO₄ with 300 mM NaCl, 10% glycerol, 20 mM imidazole, and 0.01% Triton X-100, pH 8) and three times with wash buffer II (50 mM NaH₂PO₄ with 150 mM NaCl, 25% glycerol, 20 mM imidazole, and 0.01% Triton X-100, pH 8) in a cold room. The purified proteins are eluted by 3C protease cleavage to remove the GST and His6 tags. The eluted proteins are combined and aliquoted; a small fraction of these is used to determine the quality and quantity of the protein on a PAGE gel using Coomassie staining.

For the proteins falling in the mediocre yield category, the culture volume is increased to 1 L to reach the 2 mg yield. For those that do not express well in bacteria, the proteins are purified from a yeast culture using the GST affinity tag. As described previously, the expression of the human proteins can be induced in yeast by adding galactose. To purify these tough ones, the proteins are synthesized using a commercially available in vitro transcription/translation system (e.g., the Roche rabbit reticulocyte system). No additional subcloning is required as a T7 promoter is already been built into the vector system being used. Taken together, at least 85% of the human proteins are expected to yield ˜2 mg. This amount of antigen is more than sufficient for immunization, monoclonal antibody production and screening purposes.

Antibody Production

Rapid immunizations at multiple sites (RIMMS), which uses a single round of up to four dorsal subcutaneous injections of antigen, followed 14 days later by an intraperitoneal (IP) boost and 3-4 days later by spleen cell harvest (Bynum, J., et al., Development of class-switched, affinity-matured monoclonal antibodies following a 7-day immunization schedule. Hybridoma, 1999. 18(5): p. 407-11) or a single round of injection of antigen/adjuvant into the rear footpads, followed by harvesting of draining (popliteal and inguinal) lymph nodes 7-14 days later, without the need for a booster injection (Mirza, I. H., et al., A comparison of spleen and lymph node cells as fusion partners for the raising of monoclonal antibodies after different routes of immunisation. J Immunol Methods, 1987. 105(2): p. 235-43) is used to immunize the animals.

Hybridomas are generated by fusing two cell types, immune B cells and a culture-stable myeloma cell line. This is carried out in the presence of a fusogenic compound such as PEG. The desired hybrid cell products can be selected from among the unfused cells by taking advantage of the presence of two metabolic routes of pyrimidine/purine synthesis, the de novo and scavenging pathways. The myeloma cell lines commonly used are deficient in the salvage pathway, as they have been selected for resistance to 8-azaguanine or 6-thioguanine and are thus hypoxanthine-guanine phosphoribosyl transferase (HGPRT) deficient. Fusion reactions are thus plated in HAT medium to eliminate unfused immune cells and myeloma cells but is permissive for hybridoma outgrowth. The myeloma cell lines that is used is X63-Ag8.653, NSO/1 or Sp2/0-Ag-14.

Screening to identify the desired hybridomas is performed by analyzing aliquots of each microtiter well culture supernatant from the dispersed cell fusion reaction. An ELISA type of assay, in which antigen is immobilized onto a 96 well polyvinyl plate and then incubated with supernatants from all of the colony-containing wells is devised for each individual antigen. The cells in the culture wells producing antigen-binding antibody are harvested and replated in diluted form for isolation of clonal colonies. This limiting dilution cloning step takes up to approximately 2 weeks of incubation for individual cells to grow into assayable colonies. Commonly built into the ELISA assay is a second screen, which reveals the class of antibody being secreted by the hybridoma.

The two final steps in the isolation of monoclonal antibodies involve the establishment of the clonality of the hybridoma lines, and then the expansion of those lines to produce useful amounts of antibody. When the standard methods have been used to produce a hybridoma, the cell line is cloned to eliminate the presence of contaminating hybridomas that may be producing unrelated antibodies. This is typically carried out by limiting dilution plating of the cells into microtiter wells, followed by a rescreening of the supernatant with an antigen-specific ELISA. Limiting dilution cloning can be bypassed if the original fusion reaction is plated in semi-solid medium (methylcellulose) in Petri dishes (Davis, J. M., et al., A simple, single-step technique for selecting and cloning hybridomas for the production of monoclonal antibodies. J Immunol Methods, 1982. 50(2): p. 161-71), since the cells grow out as defined clones from the beginning. Clones that are expressing antibodies to the antigen can be identified by including antigen in the semisolid medium, in effect carrying out an Ouchterlony reaction that will precipitate antigen:antibody complexes in the vicinity of the clone. Clones are then picked with capillaries into 12 well plates as the first step of expansion. Small scale cultures from either type of cloning process are then expanded using culture vessels of increasing volume. Useful amounts of antibody are harvested by maintaining the hybridomas in large volume culture systems, (e.g., large stationary flasks, spinner flasks, hollow fiber reactors), which typically yield 20-100 mg/1, or by injection of the cells into mice for ascites production, which can yield 5-10 mg/ml, but substantially smaller total volumes.

Fabrication of Human Antigen Microarrays.

To provide sufficient human antigen chips, the 17,000 human antigens is first purified as N-terminal GST-His6 fusion proteins from yeast cells, using an established high-throughput protocol (discussed above). First, the yeast strains on SC-Ura agar plates and culture in 800 μl of SC-Ura medium overnight in a 96-well. Each saturated culture will then be inoculated to 12 ml SC-Ura and induced by 2% galactose for 4 hours after the culture reaches O.D. 0.7 The induced yeast cells are collected and stored at −80° C. To monitor the quality of the induced culture, 24 random strains for each batch of culture preparation is double-inoculated and run through the protein purification step first to confirm adequate induction levels. Using immunoblot and silver staining techniques, the success rate of culture induction is estimated and only those batches that show >85% success rate will be subjected to large-scale purification. To produce the human antigen chips, the purified human antigen proteins and control proteins, including dilution series of BSA and GST-His6 as negative controls and dilution series of histones, human IgG and IgM, and EBNA1 as positive controls, is spotted in duplicate on FullMoon slides (FullMoon Biosystems, USA) using two microarrayers, ChipWriter Pro (Bio-Rad) and NanoPrint (TeleChem, USA), at a throughput of 150 chips/day. The quality of each batch of the chips and the amount of immobilized proteins on the surface will be monitored by probing the chips with anti-GST antibody, followed by Cy3-labeled secondary antibodies. Success rate of printing is expected to reach >90%.

Validation of Antibodies Against Chromosomal Proteins Using Human Antigen Microarrays.

Determining mAb Specificity: To evaluate the specificity of mAbs generated against human chromosomal proteins, mAbs purified from ascites is diluted 1000-fold in PBS as a working stock. The chips (microarrays) are blocked with 1% BSA in PBS buffer at room temperature (RT) for a minimum of 1 hr with gentle shaking in a homemade, humidified chamber. Properly diluted mAbs in PBS buffer is incubated on chips at RT for 30 min with gentle shaking. The chips are then subjected to 3-10 min washes in PBST (1% Tween 20) buffer at 42° C. with shaking. Anti-mouse IgG antibodies labeled with Cy-5 (Jackson Laboratories, USA, 1:1,000 dilution in PBS) are added to the chips and incubated in the dark at RT for 1 hr. After the same washing step, the chips are briefly rinsed in filter-sterilized, double-deionized water, and spun to dryness. To visualize the binding profiles, the chips are scanned with a microarray scanner and the binding signals with the GenePix software is are analyzed. As a negative control experiment, Cy5-labeled secondary antibodies is probed to the chips to identify non-specific binding activities. About 150 or so proteins (e.g., MGMT and PCBP1) showed binding activities to Cy5-labeled secondary antibody against mouse IgG when tested against the 17,000 protein microarrays. The non-specific interactors are excluded from further analysis.

Pooling Analysis: Based on the preliminary data, a pooling approach is used to rapidly identify mAbs that show monospecificity. Supernatants of hybridomas that secrete high levels of IgG-positive mAbs in “horizontal” and “vertical” pools as shown schematically in FIG. 6. Antibodies are classified as monospecific if a protein on the microarray is recognized by only a single horizontal and vertical pool that both contain supernatant from the hybridoma in question. It is expected that roughly 10% of all hybridomas screened will i show monospecificity, and that a large number of such mAbs can be isolated. A total of 14 microarrays can be used to analyze the specificity of 49 different hybridomas, substantially increasing the throughput of analysis.

Secondary Screening: Antibodies determined to be monospecific by the analysis of pooled supernatants is then subject to a round of secondary screening using the protein microarrays, to further characterize both their affinity and specificity. Antibodies that recognize no more than three different proteins on the array will also be set aside for further analysis in this manner, although they will be given lower priority than the monospecific mAbs, as mAbs with highly selective (though not necessarily monospecific) protein recognition properties may also be useful in a range of applications. For these experiments, one human proteome chip is probed with each mAb at 10,000-fold dilution in the course of secondary screening. If a mAb can specifically recognize its corresponding target protein, meaning no obvious binding signals to any other proteins (excluding those non-specific ones as described above) on the chips is observed, the mAb is probed to a chip again at 50,000-fold dilution to help define an optimal dilution. If no binding signals is observed, the titer is increased to 100-fold and the chip is probed again. If binding signals occur, a 1000-fold dilution is added. Those showing no binding signals at 100-fold dilution are considered as failures. Therefore, for a typical antigen, 6 chips per antigen (test 3 mAbs per antigen, using 2 chips for each) is used for this second round of microarray-based screening.

The primary tool for evaluation of specificity is reaction with a single protein on the 17,000 antigen microarray as outlined above. Antibodies that show high specificity on the antigen microarray-based screen is tested further via a battery of tests that is consolidated into a testing workflow referred to as an application testing pipeline. The immunoblotting test checks the specificity of each antibody against the cognate antigen, and against at least three human cell extracts from diverse tissue culture cell types. These are tested with and without a mixed-in cognate antigen (since the antigen is GST tagged, it can be distinguished from the native antigen).

Several different neuroblastoma cell lines are used to carry out these additional studies of antibody specificity. A large quantity of gene expression data is publicly available at the Gene Expression Omnibus (GEO) website, which allows the ready determine of whether both the transcription factor in question and its putative target gene are expressed in human cell lines that are can be readily cultured and analyzed. As shown in Table 2, previously published microarray data has been analyzed to determine which readily available cell lines show robust levels of mRNA expression for each of the antigens used to generate monoclonal antibodies.

TABLE 2 Antigens to be used for monoclonal antibody generation. Associated Antibody used Monoclonal IP Gene disease for ChIP available grade References Arnt2 PWS No 4 0 Arx Austism, No 30 0 Stromme, P., et al., Nat Genet, 2002. 30(4): p. nsMR 441¬5; Bienvenu, T., et al.,. Hum Mol Genet, 2002. 11(8): p. 981-91. ATF4 SZ No 10 0 Qu, M., et al., Am J Med Genet B Neuropsychiatr Genet, 2008. 147B(6): p. 732-6 Cux2 MD None 0 0 Glaser, B., et al., Am J Med Genet B Neuropsychiatr Genet, 2005. 132B(1). p. 38- 45. DIx2 Autism Rabbit 27 0 Liu, X., et al., Eur J Hum Genet, 2009. 17(2): polyclonal* p. 228-35 Ent Autism No 4 0 Yang, P, et al., Neuropsychobiology, 2008. 57(1-2): p. 3-8; Gharani, N., et al., Mol Psychiatry, 2004. 9(5): p. 474-84; Benayed, R., et al., Am J Hum Genet, 2005. 77(5): p. 851-68 Foxg1 RS No 1 0 Ariani, F., et al., Am J Hum Genet, 2008. 83(1): p. 89-93 Foxp2 Autism Goat 3 0 MacDermot, K. D., et al., Am J Hum Genet, polyclonal 2005. 76(6): p. 1074-80; Lai, C. S., et al., Nature, 2001. 413(6855): p. 519-23 GTF2I WBS Goat 15 0 Chimge, N. O., et al.,. Proc Natl Acad Sci USA, polyclonal 2008. 105(26): p. 9006-10Perez Jurado, L. A., et al., Hum Mol Genet, 1998. 7(3): p. 325-34 Hoxa1 Autism No 0 0 Tischfield, M. A., et al., Nat Genet, 2005. 37(10): p. 1035-7; Ingram, J. L., et al., Teratology, 2000. 62(6): p. 393-405 Isl1 NI No 19 0 Elshatory, Y. and L. Gan, J Neurosci, 2008. 28(13): p. 3291-7; Thaler, J. P., et al., Neuron, 2004. 41(3): p. 337-50 Isl2 NI No 5 0 Thaler, J. P., et al., Neuron, 2004. 41(3): p. 337- 50 Lhx1 NI No 39 0 Huang, K., et al., Hum Genet, 2008. 122(6): p. 659-60 Lhx2 NI Rabbit 3 0 Mangale, V. S., et al., Science, 2008. polyclonal* 319(5861): p. 304-9 Lhx3 NI Rabbit 5 0 Sharma, K., et al., Cell, 1998. 95(6): p. 817-28 polyclonal* Lhx4 NI No 34 1 Sharma, K., et al., Cell, 1998. 95(6): p. 817-28 Lhx5 NI No 18 0 Huang, K., et al., Hum Genet, 2008. 122(6): p. 659-60. Lhx6 NI No 18 0 Ariani, F., et al., Am J Hum Genet, 2008. 83(1): p. 89-93; Nobrega-Pereira, S., et al., Neuron, 2008. 59(5): p. 733-45; Choi, G. B., et al., Neuron, 2005. 46(4): p. 647-60 Lhx9 NI No 2 0 Kumar, R. A., et al., Am J Med Genet B Neuropsychiatr Genet, 2008. 147B(6): p. 880-9 Mecp2 Autism, RS, Rabbit 20 0 Yasui, D. H., et al., Proc Natl Acad Sci USA, PWS/AS polyclonal 2007. 104(49): p. 19416-21; Chahrour, M., et al., Science, 2008. 320(5880) p. 1224-9; Watson, P., et al., J Med Genet, 2001 38(4): p. 224-8; Dotti, M. T., et al., Neurology, 2002. 58(2): p. 226-30; Amir, R. E., et al., Nat Genet, 1999. 23(2): p. 185-8; Innessaaudene, B., et al., J Med Genet, 2001. 38(3): p. 171-4; Urdinguio, R. G., et al., PLoS ONE, 2008. 3(11). p. e3669; Vernes, S. C., et al., Am J Hum Genet, 2007. 81(6): p. 1232-50;, M., et al., Am J Hum Genet, 1999. 65(6): p. 1520-9 Mef2C Autism No 0 0 Li, H., et al. Proc Natl Acad Sci USA, 2008. 105(27): p. 9397-402. NDN PWS/AS Rabbit 17 0 Miller, N. L., R. Wevrick, and P. L. Mellon, polyclonal Hum Mol Genet, 2009. 18(2). p. 248-60; Kurita, M., et al., J Neurosci, 2006. 26(46): p. 12003-13 NEURO SZ No 18 0 Ho, B. C., et al., Schizophr Res, 2008. 106(2-3): p. 192-9; Yang, P, et al., Neuropsychobiology, 2008. 57(1-2): p. 3-8 NPAS3 SZ No 0 0 Pickard, B. S., et al., Am J Med Genet B Neuropsychiatr Genet, 2005. 136B(1): p. 26- 32.; Pickard, B. S., et al., Mol Psychiatry, 2008. NR2E1 MD None 18 3 Kumar, R. A., et al.,. Am J Med Genet B Neuropsychiatr Genet, 2008. 147B(6): p. 880-9 NURR1 SZ No 43 3 Rojas, P., et al., Mol Psychiatry, 2007. 12(8): p. 756-66; Buervenich, S., et al., Am J Med Genet, 2000. 96(6): p. 808-13 Olig2 SZ No 14 0 Huang, K., et al., Hum Genet, 2008. 122(6): p. 659-60; Georgieva, L., et al., Proc Natl Acad Sci USA, 2006. 103(33) p. 12469-74 PHF6 BFLS No 0 0 Lower, K. M., et al., Nat Genet, 2002. 32(4): p. 661-5; Mangelsdorf, M., et al., J Child Neural, 2009 Pitx1 Autism No 10 0 Philippi, A., et al., BMC Med Genet, 2007. 8: p. 74 PMX2B SZ No 0 0 Toyota, T., et al., Hum Mol Genet, 2004. 13(5): p. 551-61 RAI1 SMS No 0 0 Slager, R. E., et al., Nat Genet, 2003. 33(4): p. 466-8; Seranski, P., et al., Genomics, 1999. 56(1): p. 1-11 Rax Autism No 30 0 Voronina, V. A., et al., Hum Mal Genet, 2004. 13(3): p. 315-22. REST NSMR Rabbit 1 0 Tahiliani, M., et al., Nature, 2007. 447(7144): polyclonal p. 601-5 Sim1 PWS No 0 0 Faivre, L., et al., J Med Genet, 2002. 39(8): p. 594-6; Fyffe, S. L., et al., Neuron, 2008. 59(6) p. 947-58 SOX10 SZ No 4 0 Maeno, N., et al., Psychiatr Genet, 2007. 17(4): p. 227-31 Sox3 NSMR No 8 0 Laumonnier, F., et al., Am J Hum Genet, 2002. 71(6): p. 1450-5; Hamel, B. C., et al., Am J Med Genet, 1996. 64(1). p. 35-41 SREBF1 SZ No 16 0 Le Hellard, S., et al., Mol Psychiatry, 2008 SREBF2 SZ No 0 0 Le Hellard, S., et al., Mol Psychiatry, 2008 Tbx1 SZ No 0 0 Paylor, R., et al., Proc Natl Acad Sci USA, 2006. 103(20) p. 7729-34 TGIF SZ No 43 3 Chavarria-Siles, I., et al., Mol Psychiatry, 2007. 12(11): p. 1033-41 Xbp1 MD None 12 0 Grunebaum, M. P., et al., Int J Neuropsychopharmacol, 2009. 12(2) p. 281-3; Kakiuchi, C., et alNat Genet, 2003. 35(2): p. 171-5 ZBTB16 NSMR No 5 0 Fischer, S., et al., J Med Genet, 2008. 45(11). p. 731-7. ZNF41 NSMR No 31 0 Shoichet, S. A., et al., Am J Hum Genet, 2003. 73(6). p. 1341-54 ZNF674 NSMR No 0 0 Lugtenberg, D., et al., Am J Hum Genet, 2006. 78(2): p. 265-78. ZNF74 SZ No 0 0 Takase, K., et al., Schizophr Res, 2001 52(3): p. 161-5. ZNF804 SZ No 0 0 O'Donovan, M. G., et al., Nat Genet, 2008. 40(9): p. 1053-5. Abbreviations: BFLS = Borjenson-Forssman-Lehmann Syndrome MD = mood disorder, NI = none identified, NSMR = nonsyndromic mental retardation, PWS/AS = Prader-Willi Syndrome/Angelman Syndrome, RS = Rett Syndrome, SZ = schizophrenia, WBS = Williams-Beuren Syndrome. *indicates ChIP grade antibody is not commercially available.

For most antigens of interest, the well-characterized SH-SY5Y neuroblastoma cell line is used. In other cases, however, the mRNA corresponding to the antigen of interest is significantly more highly expressed, for example in a different readily cultured neuroblastoma or nonneuronal cell line. These are, indicated in Table 3.

TABLE 3 Cell lines to be used for immunohistochemical and/or chromatin immunoprecipitation (ChIP)-based analysis of antibodies generated. Target genes to be analyzed for ChIP are also listed when known. Gene Cell line to be used Reference Target gene(s) Reference Arnt2 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Trb2 Liu, C., et al., J Biol Chem, LaSalle, Hum Mol Genet, 2006. 2003. 278(45): p. 44857-67 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 Arx SK-N-MC Staege, M. S., et al., Cancer Res, ND 2004. 64(22): p. 8213-21 ATF4 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. CHOP Cherasse, Y., et al., Nucleic LaSalle, Hum Mol Genet, 2006. Acids Res, 2007. 35(17): p. 15(12): p. 2003-14; Staege, M. S., 5954-65 et al., Cancer Res, 2004. 64(22): p. 8213-21 Cux2 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Neurod1, p27 lulianella, A., et al., LaSalle, Hum Mol Genet, 2006. Development, 2008. 135(4): p. 15(12): p. 2003-14; Staege, M. S., 729-41 et al., Cancer Res, 2004. 64(22): p. 8213-21 DIx1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. DIx5/6 Zhou, Q. P., et al., Nucleic LaSalle, Hum Mol Genet, 2006. Acids Res, 2004. 32(3): p. 884- 15(12): p. 2003-14 92. DIx2 SK-N-MC Staege, M. S., et al., Cancer Res, Arx, DIx5/6 Zhou, Q. P., et al., Nucleic 2004. 64(22): p. 8213-21 Acids Res, 2004. 32(3): p. 884- 92; Colasante, G., et al., J Neurosci, 2008. 28(42): p. 10674-86. Ent SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ND LaSalle, Hum Mol Genet, 2006. 15(12): p. 2003-14 Foxg1 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. Foxp2 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Neurod2*, Vernes, S. C., et al., Am J Hum LaSalle, Hum Mol Genet, 2006. Pax3* Genet, 2007. 81(6): p. 1232-50. 15(12): p. 2003-14 GTF2I SH-SY5Y Peddada, S., D. H. Yasui, and J. M. HDAC1 Chimge, N. O., et al., Proc Natl LaSalle, Hum Mol Genet, 2006. Acad Sci USA, 2008. 105(26): 15(12): p. 2003-14 p. 9006-10 Hoxa1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ND LaSalle, Hum Mol Genet, 2006. 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 Isl1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ISL1, SHH Ariani, F., et al., Am J Hum LaSalle, Hum Mol Genet, 2006. Genet, 2008. 83(1): p. 89-93 15(12): p. 2003-14 Isl2 SK-N-SH Wang, Z., et al., J Biol Chem, PLXNA4 Miyashita, T., et al., 2006. 281(30): p. 21377-86. Development, 2004. 131(15): p. 3705-15 Lhx1 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. Lhx2 IMR-32 Peng, J., et al., Mol Cell SIX3 Tetreault, N., M. P. Champagne, Biochem, 2007. 294(1-2)- p. 45- and G. Bernier, Dev Biol, 2009. 54. 327(2): p. 541-50 Lhx3 IMR-32 Peng, J., et al., Mol Cell HB9 Savage, J. J., et al., Gene, 2007. Biochem, 2007. 294(1-2)- p. 45- 400(1-2): p. 44-51 54. Lhx4 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. Lhx5 HepG2 Nguyen, H., S. Sankaran, and S. ND Dandekar, Virology, 2006. 354(1): p. 58-68 Lhx6 EFTHALNP Staege, M. S., et al., Cancer Res, ND 2004. 64(22): p. 8213-21 Lhx9 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. Mecp2 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. EGR2 Swanberg, S. E., et al., Hum LaSalle, Hum Mol Genet, 2006. Mol Genet, 2009. 18(3): p. 525- 15(12): p. 2003-14; Staege, M. S., 34 et al., Cancer Res, 2004. 64(22): p. 8213-21 Mef2C SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Ascll Skerjanc, I. S. and S. Wilton, LaSalle, Hum Mol Genet, 2006. FEBS Lett, 2000. 472(1): p. 53- 15(12): p. 2003-14; Staege, M. S., 6. et al., Cancer Res, 2004. 64(22): p. 8213-21 NDN SH-SY5Y Peddada, S., D. H. Yasui, and J. M. CDC2 Kurita, M., et al., J Neurosci, LaSalle, Hum Mol Genet, 2006. 2006. 26(46): p. 12003-13 15(12): p. 2003-14 NEUROG1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Pk2 Huang, K., et al., Hum Genet, LaSalle, Hum Mol Genet, 2006. 2008. 122(6): p. 659-60 15(12): p. 2003-14 NPAS3 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ND LaSalle, Hum Mol Genet, 2006. 15(12): p. 2003-14 NR2E1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. p21 Sun, G., et al., Proc Natl Acad LaSalle, Hum Mol Genet, 2006. Sci USA, 2007. 104(39): p. 15(12): p. 2003-14 15282-7. NURR1 CHP-126 Staege, M. S., et al., Cancer Res, Bdnf Volpicelli, F., et al., J 2004. 64(22): p. 8213-21 Neurochem, 2007. 102(2): p. 441-53 Olig2 IMR-32 Peng, J., et al., Mol Cell Simi Borodovsky, N., et al., Dev Biochem, 2007. 294(1-2)- p. 45- Dyn, 2009. 54. PHF6 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. Pitx1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. p53 Liu, D. X. and P. E. Lobie, Cell LaSalle, Hum Mol Genet, 2006. Death Differ, 2007. 14(11): p. 15(12): p. 2003-14 1893-907 PMX2B SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ND LaSalle, Hum Mol Genet, 2006. 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 RAI1 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. Rax SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Hmgb3 Terada, K., et al., Dev Biol, LaSalle, Hum Mol Genet, 2006. 2006. 291(2) p. 398-412 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 REST IMR-32 Peng, J., et al., Mol Cell Scn2a, Syn1 Tahiliani, M., et al., Nature, Biochem, 2007. 294(1-2)- p. 45- 2007. 447(7144): p. 601-5. 54. Sim1 SK-N-SH Chen, J. Y., et al., Ai Zheng, 2006. Trb2 Liu, C., et al., J Biol Chem, 25(2): p. 170-4. 2003. 278(45): p. 44857-67 SOX10 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Sox10 Lee, K. E., et al., BMC LaSalle, Hum Mol Genet, 2006. Genomics, 2008. 9: p. 408 15(12): p. 2003-14 Sox3 MCF-7 Stitziel, N. O., et al., Cancer Res, ND 2004. 64(23): p. 8682-7 SREBF1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Fas Furuta, E., et al., Cancer Res, LaSalle, Hum Mol Genet, 2006. 2008. 68(4): p. 1003-11 15(12): p. 2003-14 SREBF2 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ABCA1 Zeng, L., et al., J Biol Chem, LaSalle, Hum Mol Genet, 2006. 2004. 279(47): p. 48801-7 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 Tbx1 SK-N-MC Staege, M. S., et al., Cancer Res, ND 2004. 64(22): p. 8213-21 TGIF SH-SY5Y Peddada, S., D. H. Yasui, and J. M. RARB Bartholin, L., et al., Mol Cell LaSalle, Hum Mol Genet, 2006. Biol, 2006. 26(3): p. 990-1001 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 Xbp1 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. Wfs1* Kakiuchi, C., et al., J Neu LaSalle, Hum Mol Genet, 2006. rochem, 2006. 97(2). p. 545-55 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 ZBTB16 SK-N-MC Staege, M. S., et al., Cancer Res, CDC6 Petrie, K., et al., Oncogene, 2004. 64(22): p. 8213-21 2008. 27(39). p. 5260-6. ZNF41 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. ZNF674 IMR-32 Peng, J., et al., Mol Cell ND Biochem, 2007. 294(1-2)- p. 45- 54. ZNF74 SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ND LaSalle, Hum Mol Genet, 2006. 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 ZNF804A SH-SY5Y Peddada, S., D. H. Yasui, and J. M. ND LaSalle, Hum Mol Genet, 2006. 15(12): p. 2003-14; Staege, M. S., et al., Cancer Res, 2004. 64(22): p. 8213-21 *indicates target gene is inferred from loss of function analysis rather than directly verified by ChIP, luciferase analysis, etc

If this is the case, these other cell lines are used for immunocytochemical analysis, and for chromatin immunoprecipitation, as described later. To determine whether monoclonals generated in the course of the screen can detect endogenous protein via immunoblot, the following test panel is used: Antigen alone, line 1-3 extracts, line 1-3 extracts+antigen mixed in at 1 μGm/mL. For the immunoprecipitation (IP) test, the same starting materials is used, except the final readout is an immunoblot (IB) with anti-GST to detect the antigen. To examine expression of endogenous protein via immunohistochemistry (IHC), indirect immunofluorescence-based detection is conducted to screen neuroblastoma cells grown on poly-D-lysine coated coverslips. As a negative control, a mouse fibroblast cell line (3T3) is screened.

A limited number of antibodies that are confirmed as specific by both these tests is also screened for their ability to successfully mediate chromatin immunoprecipitation (ChIP). To this end, a quantitative ChIP protocol (Onishi, A., et al., Pias3-dependent SUMOylation directs rod photoreceptor development. Neuron, 2009. 61(2): p. 234-46; Peng, G. H. and S. Chen, Chromatin immunoprecipitation identifies photoreceptor transcription factor targets in mouse models of retinal degeneration, new findings and challenges. Vis Neurosci, 2005. 22(5): p. 575-86.) is used. Briefly, 1 microgram of each antibody is used to immunoprecipitate a same amount of formaldehyde-crosslinked, and sonication-sheared chromatin from cultured cells (5×10⁶ cells). Specific genomic regions enriched in the IP samples versus input controls will be detected and quantified using real-time qPCR with gene specific primers. Non-specific mouse IgG will be used as a negative control. The IP/Input ratios in various genomic regions of a gene will be used to compare different antibodies made to a same protein for their specificity and effectiveness. The cell lines that express the target antigens at high levels, as indicated in Table 3, is employed for this analysis.

Several criteria is taken into account when selecting genomic regions for amplification and analysis. In the case of monoclonals directed against antigens for which ChIP-qualified polyclonal antibodies are already available (as indicated in Table 2), genomic regions and cell types in which express the protein in question and where the target genes of that transcription factor are already known are chosen, so that the effectiveness of the new reagents can be gauged. In the case of a number of these antigens, ChIP analysis of SH-SY5Y cells has already been conducted using polyclonal antibodies, and in these cases genomic regions already shown to be bound by these factors in this cell type is analyzed. For other proteins, ChIP analysis has been conducted in other cell or tissue types, although usually with an antibody that is not commercially available. Table 3 lists both known and proposed direct target genes for the antibodies to be generated. In cases where ChIP has already been performed for target genes of these factors, previously tested primer sets are used. In other cases, bioinformatic tools such as TRANSFACdb is used to identify consensus binding sites for these factors, and then design primer pairs that flank evolutionarily conserved sequences corresponding to sites that are found in putative regulatory regions for these transcripts, or have been characterized using high-throughput protein microarray-based analysis of protein-DNA interaction. By combining this bioinformatic data with previously published gene expression data, a list of high-probability direct targets for transcription factors under investigation is developed, and primer sets are used to for ChIP analysis on the antibodies

Example 7: Characterization of Monospecific Monoclonal Antibodies (mMAbs)

Monospecific MAb ICC validation. To further characterize the mMAbs generated using the shotgun approach, high resolution immunocytochemistry (ICC) was carried out to assess the ability of the mMAbs to bind to proteins in fixed cells. Permeabilized HeLa, HepG2, or HCT-116 cells were fixed in paraformaldehyde and blocked in 3% BSA+3% FBS. Each mMAb was diluted to 10 μg/mL and incubated overnight at 4¹/⁴C. DyLight™ conjugated Goat anti-Mouse IgG antibody (Rockland) was used as the secondary antibody. Stained cells were observed and images taken using a fluorescent microscope. Five simple categories, including nucleus, mitochondria, ER/Golgi, cytosol, and plasma membrane, were used to classify subcellular localization of a given antigen detected by the mMAbs.

As expected given that HeLa cells were the source antigen, of the 59 mMAbs tested 52 produced distinguishable patterns in HeLa cells, whereas 6 and 1 mMAbs correctly recognized their corresponding antigens in HCT-116 and HepG2 cells, respectively. The distribution of subcellular localization of these 59 human proteins is summarized in Table 4.

TABLE 4 Summary of antigen subcellular localization in cells Nucleus Mitochondria ER/Golgi Cytosol Membrane % of total 17.8% 6.6% 13.3% 37.8% 24.4%

By comparing the ICC results with the literature and databases (e.g., NCBI), 39 of these matched known patterns, whereas 16 were mismatched. This discrepancy likely reflects differences in the cell lines/tissues tested and/or differences in underlying biology. In addition, four antigens whose subcellular location was unknown, namely C11orf68, CNTD1, DYDC2, and TXNDC9, have now been localized to the mitochondria, cytosol, plasma membrane, and ER/Golgi, respectively (FIG. 8). Therefore, the mMAbs generated not only showed a 100% ICC success rate, but also helped determine localization of proteins for which that information was previously unknown.

Validation/characterization of mMAbs using immunoblot and shRNA-based gene knockdown. We are constructing a human tet-regulated plasmid expression vector. Forty-two human ORFs have been subcloned into a commercial mammalian expression vector, pcDNA3.1-v5 (Invitrogen), via the Gateway® LR recombination, in order to overexpress them as V5-tagged fusion proteins in HeLa. In brief, all plasmids were amplified in E. coli DH5α and isolated by alkaline lysis. Following purification, all clones were verified by restriction digestion. To transiently transfect human cells, HeLa cells plated at ˜0.6×10⁴ cells/well in 6-well tissue culture plates were transfected with the corresponding ORF expression constructs. Two days after transfection, cells were lysed and a portion of each lysate was then subjected to immunoblot analysis using the mMAbs (1:1000 dilution).

Also included in the immunoblot analysis were cells transfected with the empty vector DNA as a negative control. In some cases, a given mMAb detected two bands in transfected cells. For example, α-EFHD2 recognized two bands in cells transfected with V5-tagged EFHD2 but only one in vector-transfected cells (FIG. 9, Lanes 1, 2, upper left panel). When the same blot was stripped and probed with anti-V5 antibody, the faster migrating bands disappeared in both cells, indicating that α-EFHD2 faithfully detected both V5-tagged and native EFHD2 in cells. Of the 42 mMAbs tested, 30 (71%) were confirmed as correctly detecting the corresponding proteins, by comparing the mMAb with the V5 blots (FIG. 9, Lanes 1, 2 in upper and lower panels).

To further confirm that these mMAbs were highly specific, gene knockdown analysis using shRNAs was performed. One microgram of expression construct was co-transfected with 3 μg of shRNA expression construct in HeLa cells. Cells were harvested 2436 hr post-transfection, lysed and subjected to immunoblot analysis using the corresponding mMAbs and anti-V5 antibody (FIG. 9, Lanes 3 in upper and lower panels). In all six cases tested (4 of these are shown in FIG. 9), the corresponding shRNAs effectively knocked down expression of the antigens, as determined by both mMAb and anti-V5 immunoblotting. These results directly confirm a very stringent test that the mMAbs produced in the pipeline are very likely to be highly specific, and thereby highly useful for immunoblot analysis. Moreover, they provide the ultimate validation that throughout the entire pipeline, from making the arrays to interpreting the array images, the correct identity of the proteins is maintained, as the shRNA knockdown reagents come from a completely distinct collection (Sigma) than the ORF collection (Invitrogen) used to express the proteins that are put on the array.

Characterization of mMAbs Using Immunoprecipitation

An immunoprecipitation (IP) validation protocol for human cells was performed. HeLa cells were transfected with a plasmid expressing the antigen of interest in the form of an N-terminally V5 tagged protein and lysed. Antigens were immunoprecipitated using corresponding mAAbs and analyzed using immunoblotting with an anti-V5 antibody. Anti-mouse IgG and anti-V5 antibodies were used in the IP as negative and positive controls, respectively. Sixteen of 27 tested mMAbs were shown to effectively IP their corresponding antigens in HeLa cells, an overall success rate of 59% (examples shown in FIG. 10). Therefore, a high proportion of the mMAbs is IP-grade.

Characterization of mMAbs Using Chromatin Immunoprecipitation.

Many unconventional DNA-binding proteins (uDBPs) show sequence-specific binding property, including an RNA-binding protein HNRPC, one of the hnRNPs (heterogeneous nuclear ribonucleoproteins) (Hu et al, Cell 2009). The hnRNPs are known to complex with heterogeneous nuclear RNAs (hnRNAs). They are also associated with pre-mRNAs in the nucleus and appear to influence pre-mRNA processing and other aspects of mRNA metabolism and transport. Although the hnRNP proteins have distinct nucleic acid binding properties, such as forming the 40S hnRNP particle, recent studies using the protein binding microarray (PBM) showed that it also binds to both double- and single-stranded DNAsin a sequence-dependent fashion. Because a highly specific mMAb against HNRPC (Isotype IgG2b) was generated in the CDI pipeline, we decided to fully characterize this antibody using a variety of standard assays.

As illustrated in FIG. 11A, ICC staining with this antibody in HeLa cells showed a clear cut nuclear localization of HNRPC, consistent with its known subcellular localization (i.e., nucleoplasm and pronucleus). Since this mMAb could detect native HNRPC in HeLa cells, testing to determine whether it is useful for IP analysis was performed, before testing if it could specifically immunoprecipitate HNRPC after crosslink to DNA.

Two million HeLa cells overexpressing VS-tagged HNRPC were lysed, and 20 μg of the anti-HNRPC mMAb was added to the lysate and allowed to incubate overnight. Protein G-conjugated beads were added to capture the antibody, followed by extensive washes. Anti-mouse IgG and anti-V5 antibodies were also used in parallel IP experiments as negative and positive controls, respectively. The supernatants of boiled beads were then immunoblotted with anti-V5 antibody. As shown in FIG. 11B, a single band of V5-tagged HNRPC is detected at the same molecular weights as those observed in both the input and anti-V5 lanes, indicating the success of the HNRPC IP using this mMAb. As expected, the IgG negative control did not show any signals.

We next performed chromatin immunoprecipitation (ChIP) against endogenously expressed HNRPC to determine whether this mMAb is capable of ChIP of HNRPC and, if successful, what specific DNA sequences HNRPC protein is associated with in vivo. Briefly, 5×10⁷ of HeLa cells were crosslinked, quenched, harvested, and washed. After cell lysis under mild conditions, nuclear pellets were collected, washed, and sheared by sonication. To ChIP HNRPC, 10 μg anti-HNRPC antibody (or 10 μg mouse IgG as a negative control) was added and incubated at 4° C. overnight. Protein G bound Dynabeads were added to capture DNA-HNRPC complexes, followed by elution. ˜10% of the eluates were used for immunobloting. As shown in FIG. 11C, endogenously expressed HNRPC could be ChIPd as observed in both 1^(st) and 2^(nd) elution, while the IgG control showed no detectable signals.

To determine whether any DNA fragments were ChIPd with the antibody, the ChIPd complex was reverse-crosslinked at 65° C. overnight. Because HNRPC is a known RNA-binding protein, the eluates were treated with RNase, followed by deproteinization. The quality and concentration of the concentrated DNA samples were determined using the Agilent 2100 Bioanalyzer. As demonstrated in FIG. 11D, a high yield of high quality DNA was obtained.

Sequential Measurement of MAb Affinity

Dynamics of three antigen-antibody interactions is simultaneously monitored in real-time using unlabeled antibodies as shown in FIG. 12. The three antibodies were sequentially injected to the flow chamber covering the IgG microarray and the binding signals appeared to reach saturation around 20 min as indicated with the red lines in FIG. 12. This data demonstrates the feasibility of this method of sequential measuring of avidity of MAbs in a high-throughput system.

Example 8: Platform for Production and Characterization of Monospecific Monoclonal Antibodies (mMAbs)

A protein microarray comprised of 17,263 unique full-length human proteins comprising over 70% of the annotated human proteome was constructed. To express and purify these proteins, the Invitrogen Ultimate ORF collection along with 400 additional ORFs was subcloned into a yeast expression vector which allows galactose-dependent overexpression of N-terminal GST- and 6×-His tagged recombinant proteins. The quality of the purified proteins was determined by both GST immunobloting and silver staining of a random subset of recombinant proteins. Based on these results, approximately 85% of all proteins could be purified at high yield to at least 80% purity. A microarray comprised of these recombinant proteins was fabricated and tested its quality by probing with anti-GST antibody. Over 85% of spotted proteins produced significant signals above background.

Highly complex mixtures of antigens, such as whole cells or tissues, to generate monoclonal antibodies (mAbs) work well for immunocytochemistry (ICC). Generating mAbs in this “shotgun” manner increases the likelihood that the mAbs will recognize native protein epitopes, thus increasing the range of potential applications. However, the major limitation of this approach has been the difficulty in identifying the antigen preferentially recognized by a given mAb, which has typically only been possible via affinity purification coupled with mass spectrometry. By directly screening mAbs against human proteome microarrays, it is possible to directly identify the corresponding antigen recognized by a given mAb generated by immunization with complex biological samples.

Using this shotgun approach, mice were immunized with a variety of different cancer cell lines. Live human cells were injected directly into the footpad, and three weeks later, politeal lymph nodes were collected and hybridomas generated. To enrich for useful mAbs, a high-throughput ICC prescreening step against one or more cell lines was conducted using supernatants from 2200 hybridomas. ICC-positive hybridomas were then grown further and isotyped, and IgG isotype-positive supernatants selected for microarray analysis.

Individual supernatants were combined into sets of 12×12 two-dimensional pools, and these pools were then incubated on the human proteome microarrays, and incubated with a Cy5-coupled anti-IgG secondary antibody. Following washing and scanning, the signal intensity for each spot was expressed as the ratio of foreground to background signal. The number of standard deviations above mean signal intensity across the entire array for each duplicate pair of proteins, a value which we termed A, was then measured. Duplicate spots for which A>3 were then flagged, and results deconvoluted to identify proteins that were present at the intersection of a single horizontal and single vertical pool, and were thus recognized by an individual mAb. To confirm the specificity of these mAbs, each candidate highly specific mAb was then tested individually against the entire array, and A measured for each spotted protein. The signal intensities were then rank ordered and the difference between the top signal and the second-highest signal on the array calculated, which we expressed as S. A number of mAbs were obtained where A>6 and S>3 were identified, which we termed monospecific mAbs (mMAbs). In many cases, mMAbs showed extremely high selectivity (i.e. S>100). A number of mAbs bound intensely to two different proteins on the array (A>6, S<3), which were termed dispecific mAbs (dMAbs).

To further characterize the utility and specificity of the mMAbs and dMAbs, a variety of different assays were conducted. First the ICC analysis on human cancer cell lines was repeated and images collected to assess the subcellular expression pattern of the target antigen. Confirmation of the observed specificity of individual mAbs comes from the finding that 85% of all ICC patterns obtained in this study matched those previously reported for their target proteins when this data was available. The subcellular distribution of the proteins for which high-quality mAbs were obtained showed no significant preference for any particular cellular compartment, confirming that shotgun immunization can generate mAbs to a wide range of cellular proteins.

Next, the ability to detect their top target protein using immunoblot analysis was analyzed. Individual target proteins were overexpressed in HeLa cells as N-terminal VS-tagged fusion proteins, and expression was confirmed via immunoblotting to V5. Out of 56 mAbs tested, 31 (55%) recognized their target protein, while 18 (33%) recognized endogenous untagged protein in these cells. To further confirm the accuracy of these results, the VS-tagged ORF was cotransfected with individual shRNAs targeting this gene. In all 9 cases tested, a substantial reduction in immunoblot signal was observed, but control shRNAs gave no corresponding signal reduction.

Next, these mAbs were tested to determine if they would work effectively for immunoprecipitation, and thus recognize native proteins in cell homogenates. Out of 51 mAbs tested, 28 (55%) could efficiently precipitate transfected protein, which was then detected via immunoblotting to V5. A considerable fraction of mAbs work effectively in both immunoblotting and immunoprecipitating applications. Taken together, the protein microarray-based shotgun approach is a rapid and effective way to generate highly specific mAbs useful for a broad range of applications.

TABLE 5 Protein Protein Protein Protein Protein Protein Protein NP_003397.1 AAH06231.1 NP_060580.2 AAH16618.1 AAH22483.1 AAH11180.1 AAH14961.1 NP_005618.2 AAH06231.1 NP_060580.2 NP_060037.2 NP_550438.1 AAH28719.1 NP_071411.1 NP_002504.2 AAH00293.1 NP_003396.1 NP_647612.1 NP_079055.2 NP_079487.2 NP_003574.1 NP_003675.2 NP_001230.1 NP_003396.1 AAH02695.1 NP_000180.2 NP_060761.2 NP_003647.1 AAH00729.1 AAH13575.1 NP_000849.1 NP_112729.1 NP_002028.1 AAH10954.1 NP_055498.2 AAH07514.1 AAH13575.1 NP_006739.1 NP_620601.1 NP_002028.1 NP_000469.3 NP_075420.1 AAH07872.1 AAH18345.1 AAH07462.1 NP_620601.1 NP_004725.1 NP_002960.2 NP_006495.1 NP_006365.2 AAH26330.1 AAH07462.1 NP_003812.1 NP_064553.1 NP_005239.1 NP_536858.1 NP_002973.1 AAH26330.1 NP_000422.1 AAH05197.1 NP_001385.1 NP_066958.2 NP_006236.1 AAH15547.1 AAH22297.1 NP_000422.1 NP_001818.1 AAH08692.1 NP_005527.1 AAH09196.1 AAH15186.1 NP_631940.1 NP_009133.2 NP_003323.1 NP_004081.1 NP_009167.1 NP_612568.1 NP_036539.1 NP_003630.1 NP_009133.2 ENSP00000307581 AAH08493.1 NP_005596.2 NP_001002921.1 AAH01116.1 NP_003630.1 NP_659462.1 AAH13992.1 ENSP00000272066 AAH10353.1 NP_114426.1 NP_000280.1 NP_001791.1 NP_659462.1 NP_005197.3 NP_443178.1 NP_001602.1 NP_055769.2 NP_055104.2 NP_003921.2 AAH20221.1 NP_002503.1 AAH14479.1 NP_004927.2 NP_067684.2 AAH04472.1 AAH01890.1 ENSP00000360254 NP_002084.2 AAH14479.1 NP_001712.1 NP_003822.2 NP_002755.1 AAH06233.1 AAH00312.1 AAH02706.1 NP_001252.1 NP_001616.1 NP_057170.1 AAH06190.1 NP_061041.2 NP_055180.1 AAH00727.1 NP_001252.1 AAH26046.1 AAH05828.1 AAH06190.1 AAH05298.1 NP_002035.1 AAH08741.1 AAH24291.1 NP_003322.2 NP_008957.1 NP_066270.1 NP_997461.1 NP_057367.1 AAH06103.1 AAH24291.1 ENSP00000369468 NP_008957.1 AAH15806.1 NP_997461.1 NP_113652.1 AAH06103.1 NP_002638.2 NP_067675.1 NP_001458.1 NP_001310.2 AAH12264.1 AAH08374.1 NP_002036.1 NP_002638.2 AAH01028.1 NP_009030.1 NP_660302.1 AAH12264.1 AAH05371.1 AAH11399.1 NP_005100.1 NP_002711.1 ENSP00000304749 ENSP00000345641 NP_005019.2 NP_005382.1 NP_061882.2 NP_005100.1 NP_057231.1 NP_057445.2 NP_004626.1 AAH20225.1 NP_005382.1 NP_057366.2 NP_065172.1 NP_055751.1 AAH21992.1 NP_000285.1 AAH20225.1 NP_115755.2 AAH09195.1 NP_065172.1 NP_055751.1 AAH21992.1 NP_003891.1 NP_003395.1 ENSP00000329646 AAH09195.1 NP_002840.1 NP_005389.1 NP_001001875.1 NP_057608.2 NP_006089.1 ENSP00000329646 NP_004408.1 AAH00346.1 NP_005389.1 NP_001001875.1 AAH01454.1 NP_001814.2 AAH16618.1 NP_004408.1 NP_003703.1 NP_733794.1 AAH17272.1 NP_001789.2 AAH18208.1 ENSP00000340867 NP_055125.2 AAH07567.1 AAH00552.1 NP_008939.1 NP_001789.2 NP_001658.1 AAH02862.1 AAH24004.1 NP_071748.2 AAH08375.1 AAH02611.1 NP_004194.3 NP_004242.1 AAH22488.1 NP_004413.1 NP_690048.1 AAH08375.1 NP_001018024.1 NP_004194.3 NP_004145.1 NP_002416.1 NP_001775.2 NP_061821.1 NP_038462.1 NP_076952.1 NP_057207.1 AAH22511.1 NP_001652.2 NP_001328.1 NP_001001977.1 NP_001209.1 AAH08069.1 NP_112214.1 NP_056542.1 NP_006561.1 NP_004973.1 NP_005524.1 AAH09872.1 NP_002140.2 NP_112214.1 NP_076981.1 NP_006852.1 AAH06114.1 NP_077003.1 NP_006321.1 AAH01550.1 NP_009138.1 NP_003995.2 NP_036382.2 AAH11913.1 NP_077273.2 AAH04190.1 AAH21258.1 NP_066954.2 AAH21578.1 NP_006261.1 NP_002134.2 NP_057269.1 NP_057546.1 NP_005491.1 NP_009171.1 AAH04522.1 AAH05153.1 AAH01956.1 NP_004137.2 NP_002961.1 NP_002297.2 NP_009171.1 NP_076429.1 NP_003373.2 AAH01360.1 NP_002794.1 NP_060351.1 NP_001748.1 NP_150281.1 NP_076429.1 NP_001041.1 NP_001782.1 NP_742013.1 NP_000445.1 AAH01387.1 NP_002701.1 AAH13572.1 AAH11634.1 NP_057614.1 NP_078895.2 NP_055330.1 AAH01419.1 NP_001735.1 AAH20495.1 NP_065728.1 NP_006813.1 AAH22524.1 NP_079426.2 NP_006423.1 AAH28587.1 NP_001010935.1 NP_005823.1 NP_001727.1 AAH13957.1 NP_006781.1 NP_000366.1 AAH21278.1 NP_006487.1 AAH02576.1 NP_061842.1 NP_004860.2 NP_078870.1 NP_000366.1 NP_001996.1 NP_006487.1 NP_004785.1 NP_001391.2 NP_116024.1 AAH15684.1 NP_076431.1 NP_004217.1 NP_006691.1 NP_002858.2 NP_004427.1 NP_005688.2 AAH11707.1 AAH08751.1 NP_057365.2 NP_004711.2 NP_071732.1 NP_000801.1 NP_056264.1 NP_079353.2 NP_777590.1 NP_201570.1 NP_004711.2 AAH22548.1 NP_001280.3 NP_056937.2 NP_066982.2 NP_002460.1 NP_076930.1 NP_005549.2 AAH20869.1 NP_001004720.1 NP_005611.1 NP_054783.2 AAH21303.1 NP_076930.1 NP_005549.2 NP_003132.2 NP_005361.2 NP_056955.1 NP_057133.2 NP_060519.1 AAH03635.1 NP_068769.2 NP_003132.2 NP_057406.2 AAH02424.1 NP_005780.2 NP_005121.1 AAH03635.1 NP_068769.2 AAH16964.1 NP_004274.1 AAH08819.1 NP_057078.1 NP_001540.2 NP_002712.1 NP_003121.1 AAH14374.1 NP_060654.1 NP_695005.1 NP_005207.2 AAH02493.1 NP_002712.1 AAH09012.1 NP_001686.1 NP_073614.1 NP_004802.1 NP_612510.1 NP_003653.1 AAH16183.1 AAH04247.1 NP_064695.2 ENSP00000361164 NP_001012770.1 NP_057385.2 AAH02578.1 AAH16183.1 NP_001001349.1 AAH22449.1 AAH22447.1 NP_001645.1 NP_006177.1 AAH04983.1 AAH00566.1 NP_065724.1 AAH22449.1 AAH14472.1 NP_002203.1 NP_000167.1 NP_054903.1 AAH00566.1 AAH16841.1 NP_473374.1 NP_066960.1 NP_004795.1 NP_008926.2 NP_000845.1 NP_057187.1 NP_002061.1 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NP_079088.1 AAH07658.1 NP_008842.1 NP_000018.1 NP_002765.1 NP_000025.1 AAH08115.1 NP_009190.2 NP_000566.3 AAH05918.1 AAH12381.1 AAH15467.1 NP_079382.2 NP_057087.2 NP_057103.2 NP_001003692.1 NP_001974.1 AAH15714.1 NP_057554.4 AAH15803.1 NP_005792.1 NP_005822.1 NP_005714.2 NP_057093.1 NP_001329.1 ENSP00000361178 AAH15056.1 NP_065895.1 AAH15936.1 AAH13428.1 NP_057199.1 NP_009199.1 AAH14891.1 AAH16445.1 NP_852480.1 AAH10537.1 AAH09618.1 NP_660287.1 ENSP00000369026 NP_057702.1 AAH07530.1 NP_005497.1 NP_001797.1 NP_001604.1 NP_660287.1 AAH20551.1 AAH15047.1 AAH07610.1 NP_079121.1 NP_005718.2 NP_006352.2 NP_775744.1 AAH13437.1 NP_061931.1 NP_653209.1 NP_006351.2 NP_835361.1 AAH17422.1 NP_006569.1 NP_001020607.1 AAH07781.1 AAH22823.1 AAH21564.1 NP_001005368.1 NP_001026847.1 NP_612452.1 AAH10850.1 NP_077819.1 AAH24268.1 NP_006277.1 ENSP00000262764 NP_057543.2 NP_004935.1 AAH05922.1 AAH18625.1 NP_002530.1 NP_612396.1 AAH17237.1 NP_004763.1 AAH21252.1 NP_001007100.1 AAH03535.2 NP_002530.1 AAH22098.1 NP_056343.1 ENSP00000239852 AAH21252.1 NP_542381.1 AAH18728.1 NP_004599.2 AAH21120.1 ENSP00000361798 NP_002404.1 NP_057177.1 AAH05960.1 NP_006323.2 AAH05053.1 NP_001003789.1 NP_000851.2 AAH09433.1 NP_057177.1 AAH06494.3 NP_004713.2 AAI12118.1 AAH25263.1 NP_003306.1 NP_001115.1 AAH19089.1 AAH06494.3 AAH25269.1 AAH21127.1 AAH25263.1 AAH17407.1 NP_009042.1 AAH17351.1 NP_009186.1 AAH24269.1 AAH21127.1 NP_003081.2 AAH17314.1 NP_009042.1 AAH17351.1 NP_003336.1 AAH25256.1 NP_003785.1 NP_003081.2 NP_620133.1 NP_878247.1 AAH12612.1 AAH09697.1 NP_006806.1 NP_004346.1 AAH25267.1 NP_620133.1 AAH11885.1 NP_001035527.1 NP_054873.2 AAH26038.1 AAH21930.1 NP_060130.2 AAH17247.1 NP_006049.3 NP_001035527.1 AAH13567.1 AAH07783.1 NP_006558.1 NP_055386.1 NP_005552.3 AAH18682.1 NP_060339.2 AAH09720.1 AAH06117.1 NP_110443.2 AAH21290.1 NP_060464.1 NP_002807.1 Q9UMY4 AAH09676.1 AAH20203.1 AAH25262.1 AAH20224.1 NP_000063.2 NP_060736.1 Q9UMY4 NP_003786.1 AAH18624.1 AAH26035.1 NP_002019.1 NP_001007566.1 AAH17292.1 AAH11739.1 AAH05930.1 AAH18747.1 AAH25279.1 AAH18736.1 NP_000812.2 NP_001091.1 NP_001006623.1 NP_006357.1 AAH21119.1 NP_060504.1 AAH18736.1 NP_002613.2 AAH18938.3 NP_061092.3 NP_057388.1 NP_149351.1 NP_115779.1 NP_055557.1 NP_477511.1 NP_003183.1 AAH15880.1 NP_115735.1 NP_071365.2 NP_954857.1 NP_005338.1 Q12774 AAH09457.1 AAH15880.1 NP_006018.3 NP_116244.1 AAH21105.1 NP_006512.2 AAH16381.1 NP_057358.2 AAH21253.1 NP_004483.1 NP_002895.3 NP_057034.2 NP_057192.2 NP_006807.1 AAH14057.1 AAH21253.1 NP_001035196.1 NP_002895.3 NP_057034.2 NP_116226.1 NP_001069.1 AAH11886.1 NP_001035284.1 NP_000593.1 NP_002141.1 AAH18749.1 NP_003095.1 NP_001069.1 AAH14010.1 NP_001035284.1 NP_620148.1 AAH25232.1 ENSP00000355022 NP_660152.1 NP_000984.1 AAH19607.1 NP_001072113.1 AAH09564.1 NP_001012523.1 NP_060941.2 AAH05021.1 NP_002258.2 ENSP00000341235 NP_001072113.1 NP_006324.1 NP_001012523.1 NP_001026865.1 NP_689485.1 AAH12602.1 AAH25422.1 NP_004756.2 AAH07104.1 NP_473357.1 AAH25345.1 AAH21560.1 AAH10427.1 NP_000957.1 NP_004756.2 AAH05902.1 AAH18766.1 NP_005330.1 AAH20233.1 NP_004863.2 NP_005221.2 NP_059996.1 NP_079405.2 NP_057327.2 NP_005330.1 NP_066928.1 AAH10136.1 AAH21229.1 NP_006704.2 NP_001272.2 AAH20236.1 NP_057725.1 NP_057291.1 AAH10176.1 NP_612403.2 NP_001830.1 NP_004042.1 AAH21551.1 NP_659500.1 AAH26032.1 AAH11888.1 NP_006224.1 AAH12981.1 AAH08764.1 AAH21559.1 AAH06438.1 NP_115540.2 NP_443077.1 NP_115865.1 NP_003327.2 AAH13991.1 NP_002629.1 NP_114381.1 NP_942088.1 NP_000936.1 AAH99903.1 AAH28219.1 AAH13991.1 NP_003664.1 AAH24256.1 NP_001034800.1 AAH27970.1 AAH99903.1 AAH17564.1 NP_001670.1 NP_839952.1 NP_057559.2 NP_060932.2 AAH28123.1 AAH28740.1 AAH12536.1 NP_055206.2 AAH10895.1 NP_003868.1 AAH09411.1 AAH13903.1 NP_849152.1 AAH26106.1 NP_612364.1 NP_071933.2 AAH14535.1 AAH11647.1 AAH10923.1 NP_067046.1 AAH28385.1 NP_005501.2 AAH09313.1 NP_000423.2 AAH10369.1 AAH19909.1 AAH27867.1 AAH16137.1 NP_008933.2 AAH11670.1 NP_115637.3 NP_001614.3 AAH28609.1 NP_005308.1 NP_653203.1 AAH17299.1 NP_002056.2 NP_612394.1 AAH10352.1 AAH28423.1 AAH27976.1 AAH25689.1 AAH12542.1 NP_963849.1 AAH09401.1 AAH12595.1 NP_689910.1 NP_006856.2 AAH25781.1 AAH08450.1 NP_001649.1 ENSP00000373301 NP_037424.2 NP_689910.1 NP_000602.1 NP_004801.1 AAH08450.1 NP_002378.1 NP_005304.3 NP_037424.2 AAH28724.1 AAH12611.1 AAH27963.1 NP_004441.1 ENSP00000302543 AAH09507.1 AAH15063.1 NP_976053.1 NP_060036.2 AAH28120.1 NP_001026881.1 NP_055209.2 NP_001889.2 AAH10947.1 AAH27939.1 AAH28397.1 AAH28087.1 NP_110433.1 AAH10395.1 NP_694546.1 AAH27624.1 AAH27955.1 AAH28387.1 AAH11603.1 NP_002116.2 AAH10358.1 NP_000550.2 NP_055956.1 AAH27955.1 NP_872354.1 NP_002792.1 NP_004043.2 AAH12613.1 NP_001648.1 AAH21723.1 NP_001026862.1 NP_001014986.1 NP_620174.1 NP_001011.1 AAH25369.1 AAH11029.1 AAH28721.1 AAH28006.1 NP_001014986.1 NP_689478.1 NP_055103.3 AAH09297.1 NP_002952.1 AAH27877.1 NP_061870.1 NP_000069.1 NP_689478.1 AAH12196.1 AAH09398.1 AAH12748.1 NP_689559.1 AAH10931.1 AAH27870.1 AAH26177.1 NP_064530.1 NP_004740.2 NP_057037.1 NP_689559.1 AAH19835.1 NP_932170.1 NP_002915.2 AAH17219.1 NP_003723.1 AAH09362.1 AAH27882.1 AAH26107.1 ENSP00000344423 NP_612146.1 AAH09775.1 AAH24209.3 AAH09362.1 NP_005323.1 NP_036213.1 NP_068759.2 NP_115633.2 AAH10357.1 AAH21211.1 NP_036474.1 NP_775743.1 NP_054797.2 NP_057083.2 AAH26077.1 NP_002484.1 AAH17440.1 NP_004138.1 NP_995318.1 NP_054797.2 NP_056300.1 AAH26077.1 NP_005827.1 NP_003511.1 AAH13309.1 AAH13330.1 NP_775097.1 AAH28390.1 NP_002355.1 NP_005634.1 NP_004636.1 NP_060560.1 NP_006174.1 NP_001991.1 NP_115766.2 NP_001011539.1 NP_006128.1 AAH10946.1 AAH09785.1 NP_006844.1 AAH27865.1 NP_064545.1 NP_694968.1 AAH09995.1 NP_000175.1 NP_001009924.1 NP_006844.1 AAH27956.1 NP_689735.1 AAH16805.1 AAH11757.1 NP_001026889.1 NP_060518.1 NP_872352.1 NP_057678.1 NP_004460.1 ENSP00000364573 NP_001833.1 NP_775780.1 AAH10940.1 AAH26196.1 AAH28206.1 NP_665809.1 NP_001216.1 AAH19292.1 NP_001995.1 AAH14546.1 AAH26196.1 NP_005521.1 AAH27881.1 NP_001216.1 AAH19292.1 NP_001012333.1 NP_733779.1 AAH26012.1 AAH10956.1 NP_001729.1 AAH20656.1 AAH11635.1 NP_002907.1 AAH09387.1 NP_689590.1 AAH24772.1 AAH10523.1 AAH22054.1 NP_068753.2 AAH13019.1 AAH09387.1 AAH25727.1 AAH28607.1 AAH28219.1 AAH22004.1 NP_060792.1 AAH19861.1 NP_001013770.1 AAH22867.1 AAH14483.1 NP_057181.1 AAH15752.1 NP_006863.2 AAH19861.1 NP_758440.1 AAH16693.1 NP_037475.1 NP_065100.1 NP_065128.2 NP_542781.2 AAH16330.1 NP_653235.1 AAH14465.1 AAH17021.1 NP_653207.1 AAH25236.1 NP_653306.1 AAH17770.1 NP_002292.1 AAH17382.1 NP_665736.1 NP_653207.1 AAH28199.1 NP_073592.1 NP_001629.1 AAH28582.1 AAH17382.1 AAH17871.1 AAH14457.1 NP_777552.1 AAH27604.1 NP_006298.1 AAH28582.1 AAH14667.1 NP_001170.2 NP_694939.1 AAH12133.1 AAH27604.1 NP_006298.1 NP_612401.1 AAH14667.1 ENSP00000373174 NP_036450.1 NP_110417.2 NP_001507.2 NP_997002.1 NP_612401.1 AAH15754.1 NP_003486.1 NP_036450.1 NP_005863.1 NP_000678.1 NP_620151.1 AAH21988.1 AAH00909.2 AAH16703.1 NP_001027392.1 NP_056979.1 AAH22362.1 AAH22034.1 AAH17758.1 NP_002936.1 AAH15728.1 NP_005635.1 NP_056474.2 AAH20753.1 NP_001001394.1 AAH17758.1 NP_001620.2 NP_009034.2 AAH13795.1 AAH05249.1 NP_612561.1 NP_620167.1 NP_777569.1 NP_001620.2 NP_005068.2 NP_002097.1 NP_004261.1 AAH14592.1 NP_003108.2 NP_001009936.1 AAH22254.1 NP_005068.2 ENSP00000361539 NP_653229.1 AAH14592.1 NP_004353.1 AAH24005.1 AAH17817.1 AAH14449.1 ENSP00000361539 AAH15742.1 NP_001603.1 NP_660150.1 NP_057237.1 NP_542784.1 AAH14449.1 AAH20750.1 AAH15742.1 AAH22028.1 NP_003341.1 NP_057237.1 NP_001688.1 AAH16477.1 NP_660321.1 NP_079046.1 AAH22028.1 NP_000706.1 AAH24181.1 NP_002081.2 AAH16477.1 NP_067050.1 NP_002253.1 AAH26075.1 AAH20707.1 NP_660316.1 AAH14955.1 AAH18140.1 NP_071898.2 NP_006353.2 NP_659447.1 NP_004533.1 NP_660316.1 AAH15631.1 ENSP00000333066 AAH16050.1 NP_054770.1 NP_997545.2 AAH21717.1 NP_149096.2 NP_006135.1 XP_001134297.1 NP_000654.2 NP_954699.1 NP_997545.2 NP_849192.1 NP_660311.1 NP_005833.1 AAH17813.1 NP_001902.1 AAH05241.1 NP_001406.1 AAH24178.1 NP_660311.1 NP_005833.1 AAH14341.1 AAH10064.1 AAH05253.1 NP_078816.2 AAH24178.1 Q96H40 NP_002543.2 AAH16327.1 NP_001027452.1 NP_060284.1 AAH11595.1 AAH25399.1 AAH28672.1 AAH17053.1 NP_066972.1 NP_001027452.1 NP_004672.2 AAH11595.1 AAH25394.1 NP_066932.1 NP_001035215.1 NP_620124.1 AAH21898.1 NP_001679.2 AAH20823.1 AAH16745.1 NP_060769.3 AAH17763.1 NP_620124.1 NP_005462.1 NP_000127.2 AAH20653.1 AAH25998.1 AAH17502.1 NP_003716.2 AAH27724.1 NP_005462.1 NP_000127.2 AAH15833.1 NP_079474.2 NP_000387.1 AAH14315.1 AAH15733.1 NP_006407.1 NP_115550.2 NP_109588.2 NP_002957.1 AAH14473.1 AAH16328.1 AAH14484.1 AAH20885.1 NP_115550.2 AAH21704.1 AAH20731.1 NP_004263.1 AAH16328.1 AAH12423.1 NP_005231.1 NP_671722.1 AAH14598.1 AAH20747.1 AAH18549.1 AAH22851.1 AAH15178.1 AAH22853.1 NP_671722.1 ENSP00000358695 AAH20783.1 AAH26296.1 NP_036240.1 NP_008868.3 AAH22853.1 NP_036224.1 AAH25988.1 AAH24184.1 AAH22302.1 AAH11710.1 AAH17801.1 NP_001032358.1 NP_036224.1 NP_112241.2 AAH22027.1 AAH20840.1 ENSP00000365012 AAH17844.1 NP_945327.1 NP_872420.1 AAH16341.1 AAH14974.1 NP_004335.1 AAH08394.1 NP_057032.2 NP_002511.1 NP_004616.2 AAH16778.1 AAH24300.1 AAH08499.1 NP_113611.2 NP_057032.2 NP_002511.1 NP_004616.2 AAH16778.1 NP_653298.1 AAH08499.1 NP_113611.2 AAH05373.1 AAH08423.1 AAH07206.1 AAH05395.1 AAH28151.1 NP_056284.1 NP_877590.1 AAH05339.1 NP_001012321.1 AAH05111.1 AAH07052.1 NP_006155.2 NP_000508.1 AAH05217.1 AAH05339.1 NP_001012321.1 AAH07213.1 AAH05270.1 NP_000041.2 AAH05914.1 AAH05217.1 NP_055579.1 AAH05369.1 AAH08298.1 NP_003270.1 AAH05198.1 NP_004519.1 AAH07838.1 NP_904319.1 NP_000700.1 AAH08353.1 AAH08397.1 AAH05254.1 NP_001630.1 AAH07838.1 AAH01940.1 NP_000700.1 NP_612380.1 NP_858059.1 NP_004498.1 NP_001630.1 AAH07003.1 ENSP00000217602 NP_054865.2 NP_001047.1 AAH25243.1 NP_110390.1 AAH05258.1 AAH04440.1 ENSP00000217602 NP_055150.1 AAH04117.1 NP_079060.1 AAH05313.1 NP_115649.1 NP_057267.2 AAH01953.1 NP_002686.2 NP_003418.2 NP_009151.1 AAH05989.1 NP_115649.1 NP_057267.2 AAH01953.1 NP_002686.2 AAH01415.1 AAH11863.1 AAH17504.1 NP_064581.2 NP_066284.2 NP_775111.1 AAH03166.1 AAH07048.1 AAH14323.1 NP_002386.1 NP_036332.2 NP_001632.2 NP_064703.1 AAH03166.1 ENSP00000343093 NP_001026879.1 NP_059986.1 NP_085096.1 NP_001632.2 NP_149073.1 NP_003698.1 AAH07200.1 AAH05216.1 AAH28152.1 NP_056468.1 AAH07093.1 AAH05944.1 NP_003698.1 AAH05029.1 NP_002780.1 NP_443730.1 NP_005729.1 NP_003753.2 NP_057551.1 NP_002924.1 NP_001006934.1 AAH08369.1 AAH14309.1 AAH07096.1 NP_003329.1 NP_057551.1 NP_002924.1 NP_612390.1 NP_057683.1 AAH05399.1 NP_061332.2 AAH06011.1 NP_068818.4 AAH05893.1 NP_060957.2 NP_060315.1 NP_060416.1 NP_006486.2 AAH07459.1 AAH05387.1 AAH05893.1 NP_079012.3 AAH14441.1 AAH05349.1 NP_077718.2 AAH05259.1 AAH05387.1 AAH07102.1 AAH05300.1 AAH14441.1 NP_116227.1 AAH05332.1 AAH05259.1 AAH09599.1 NP_783642.1 NP_055049.1 NP_002679.2 AAH05279.1 AAH05332.1 NP_038471.2 AAH09599.1 AAH06971.1 AAH03360.1 AAH25316.1 AAH08430.1 AAH31017.1 NP_006404.1 NP_005577.1 AAH06971.1 NP_055563.1 NP_001549.1 NP_006206.2 AAH07874.1 AAH04424.1 NP_005577.1 AAH07009.1 NP_115704.1 AAH14095.1 NP_653274.1 AAH05385.1 NP_002147.2 NP_065752.1 NP_000169.1 AAH06296.1 AAH14572.1 NP_694947.1 NP_002783.1 NP_002147.2 NP_065752.1 NP_115722.1 NP_004587.1 AAH07019.1 AAH28088.1 NP_002783.1 AAH03020.1 NP_004804.1 NP_004334.1 AAH06453.1 NP_057548.1 AAH12117.1 NP_001687.1 NP_003109.1 NP_004804.1 NP_006618.1 NP_006182.2 AAH05333.1 AAH19225.1 AAH03040.1 NP_056279.1 NP_005021.2 NP_077308.1 NP_116271.1 NP_001433.1 NP_000309.1 AAH01916.1 NP_056279.1 NP_005021.2 AAH51282.1 NP_937987.2 NP_116133.1 AAH07008.1 AAH05895.1 AAH07097.1 AAH03154.1 AAH51282.1 AAH05327.1 NP_057709.2 NP_004828.1 AAH08392.1 AAH07097.1 AAH03154.1 NP_057184.1 NP_000981.1 AAH14974.1 AAH06985.1 AAH08392.1 AAH05982.1 NP_060961.3 NP_004356.2 NP_073732.1 AAH04345.1 NP_001002000.1 NP_055567.1 NP_005604.1 NP_009214.1 NP_004313.1 AAH04397.1 NP_008854.2 NP_057579.1 NP_055567.1 NP_004537.1 AAH02933.1 AAH02957.1 NP_061154.1 AAH05233.1 NP_254275.1 NP_115752.1 NP_056326.2 AAH01103.1 AAH02957.1 AAH05131.1 NP_000231.1 NP_004957.1 AAH08781.1 AAH03567.1 AAH00770.1 NP_036361.1 NP_001950.1 NP_071768.2 ENSP00000219758 AAH08781.1 NP_055083.1 AAH00019.1 AAH03606.1 NP_001950.1 NP_002111.1 NP_076932.1 NP_115725.1 NP_061141.2 NP_057584.2 AAH01622.1 NP_036392.2 AAH07560.1 NP_076932.1 NP_065101.1 AAH07990.1 AAH01892.1 AAH02826.1 NP_036392.2 AAH07633.1 AAH05388.1 AAH05136.1 AAH07990.1 NP_002927.2 NP_056325.2 NP_005731.1 NP_113623.1 NP_115720.1 NP_057540.1 NP_115516.1 NP_005142.1 AAH02878.1 NP_057023.2 NP_006157.1 AAH06079.1 NP_057540.1 NP_005212.1 AAH05889.1 NP_076869.1 AAH00195.1 NP_001639.1 AAH06079.1 NP_036438.2 NP_006504.2 AAH04985.1 NP_085054.1 NP_001032252.1 NP_003705.1 AAH07963.1 AAH01864.1 NP_114405.1 NP_008996.1 AAH05009.3 NP_110445.1 NP_000215.1 NP_001852.1 NP_569709.1 NP_000992.1 AAH07704.1 NP_003348.1 AAH02891.1 NP_001008712.1 ENSP00000321290 NP_945189.1 AAH02951.1 AAH07704.1 AAH03540.1 NP_055942.1 NP_115706.1 NP_001650.1 AAH01223.1 AAH01899.1 NP_056257.1 NP_004572.3 AAH04395.1 AAH08068.1 NP_055165.2 NP_057604.1 ENSP00000343102 NP_057575.2 NP_000973.2 AAH04364.1 AAH08068.1 NP_006503.1 AAH08959.1 NP_001076.2 NP_057575.2 NP_085055.1 NP_065116.2 AAH06142.2 NP_005711.1 AAH08790.1 NP_068598.1 NP_001008223.1 AAH00440.1 NP_000137.2 NP_006154.1 AAH09866.1 NP_056265.2 NP_057010.1 NP_057175.1 NP_036524.1 NP_002937.1 AAH07526.1 AAH00038.1 NP_079463.2 NP_001315.1 NP_002803.1 NP_060695.2 NP_000997.1 AAH08344.1 NP_036391.1 NP_000108.1 AAH06192.1 NP_057390.1 NP_001001502.1 NP_076999.1 AAH08023.1 NP_116098.1 NP_705935.1 NP_057330.2 NP_057390.1 AAH02864.1 AAH00923.1 NP_001224.1 NP_076973.1 NP_000840.2 AAH00052.1 NP_057418.1 AAH04399.1 NP_001011543.1 NP_005738.3 AAH14644.1 NP_006749.1 AAH00052.1 AAH03562.1 ENSP00000347366 ENSP00000366765 NP_005525.2 AAH08337.1 AAH01889.1 AAH04130.1 NP_036559.1 NP_055481.1 NP_000837.2 NP_064550.2 AAH08019.1 AAH03549.1 NP_060582.1 NP_066930.1 NP_066949.1 NP_000837.2 NP_056139.1 AAH07520.1 NP_057256.2 AAH01213.1 NP_036340.1 NP_055296.2 NP_036421.2 NP_002336.1 NP_064554.2 NP_002289.1 NP_006185.1 AAH07693.1 NP_002158.2 NP_116070.1 NP_002336.1 NP_821080.1 NP_002130.2 NP_060231.1 NP_072094.1 NP_003304.1 AAH04366.1 NP_116319.1 NP_597994.1 AAH08279.1 NP_001179.1 NP_008867.2 NP_078868.1 NP_057067.1 NP_001937.2 NP_008859.1 AAH06252.1 NP_001179.1 NP_002860.2 AAH05134.1 NP_116093.1 NP_660276.1 NP_004453.3 NP_037369.1 AAH07347.1 NP_005650.2 NP_064519.2 AAH01600.1 AAH07252.1 AAH01958.1 NP_054861.2 NP_653081.1 NP_055207.1 AAH02863.1 NP_054785.2 NP_116272.1 NP_057303.1 AAH05177.1 NP_057589.2 NP_002808.2 AAH02944.1 AAH01327.1 AAH01258.1 NP_001152.1 NP_057578.1 NP_077018.1 AAH04937.1 AAH03062.1 NP_003884.1 NP_037451.1 NP_079469.2 NP_065392.1 NP_955772.1 NP_112577.1 NP_006223.2 NP_003884.1 AAH02888.1 AAH03641.1 NP_057665.2 NP_852667.1 NP_000428.2 AAH03152.1 NP_062826.2 NP_077298.1 NP_004032.2 NP_001027017.1 AAH02793.1 AAH00247.1 AAH03152.1 NP_057321.2 AAH02914.1 NP_061943.2 NP_001027017.1 NP_001929.1 NP_003770.1 NP_002844.1 NP_057370.1 AAH04372.1 NP_777547.1 NP_001060.1 NP_001929.1 AAH00267.1 NP_001605.1 AAH00279.1 NP_055962.1 AAH07578.1 AAH01620.1 NP_008978.2 AAH03106.1 NP_001217.2 AAH00279.1 ENSP00000359445 NP_116028.1 AAH04331.1 NP_775112.1 NP_067077.1 NP_001217.2 AAH03086.1 NP_001001522.1 AAH20829.1 AAH04897.1 AAH01176.1 NP_055500.1 NP_000652.2 NP_067061.1 NP_002782.1 NP_060281.2 AAH02645.1 AAH01796.1 NP_008982.1 AAH01671.1 NP_009215.1 NP_478059.1 NP_006699.2 NP_000160.1 NP_006760.1 AAH08200.1 NP_006077.2 NP_113631.1 NP_060561.3 NP_006699.2 NP_055263.1 AAH01217.1 AAH01250.1 NP_078847.1 AAH06818.1 NP_006175.2 AAH01755.1 NP_057077.1 NP_056469.2 AAH01250.1 NP_057714.1 NP_004902.1 NP_005457.2 NP_076946.1 NP_003138.3 AAH04225.1 NP_055414.2 AAH01208.1 NP_005443.2 ENSP00000370652 NP_004134.1 NP_001035895.1 AAH02694.1 NP_000603.1 NP_001006682.1 NP_004459.2 ENSP00000370652 NP_060802.1 NP_002256.2 NP_112202.2 AAH00757.1 NP_003746.2 AAH01075.1 NP_062819.1 NP_005692.1 NP_660274.1 NP_112202.2 AAH00757.1 NP_005988.1 NP_009150.1 AAH09519.1 NP_001021.1 AAH01172.1 ENSP00000372599 NP_127501.1 NP_006266.2 AAH01434.1 NP_001035173.1 AAH02660.1 AAH01619.1 NP_006294.2 NP_004946.1 NP_000781.1 NP_057396.1 AAH04867.1 ENSP00000354182 NP_077017.1 AAH02859.1 NP_076950.1 AAH00306.1 NP_057396.1 AAH04867.1 ENSP00000354182 AAH03648.1 NP_079507.1 AAH03188.1 NP_002393.2 AAH04966.1 NP_002800.2 AAH02827.1 NP_077279.1 AAH00190.1 AAH03188.1 NP_055100.2 NP_001028721.1 AAH04301.1 ENSP00000347361 NP_005310.1 NP_067072.3 NP_689511.2 NP_055100.2 NP_001028721.1 AAH01602.1 XP_937759.1 AAH02702.1 AAH01199.1 NP_000792.1 NP_001028218.1 NP_065949.1 NP_006079.1 AAH00121.1 AAH02702.1 NP_001304.1 AAH00097.1 AAH01433.1 NP_005644.2 AAH08654.1 NP_076979.1 NP_060271.1 NP_077270.1 NP_000039.2 AAH01433.1 AAH06808.1 NP_003792.1 NP_076979.1 NP_001227.1 AAH04224.1 NP_054894.1 NP_057689.1 NP_006657.1 AAH04889.1 NP_005601.1 ENSP00000362773 NP_006784.1 NP_003674.1 NP_821066.1 NP_006136.1 NP_006212.1 NP_061182.3 ENSP00000362773 NP_001035521.1 AAH00533.1 AAH00719.1 NP_666500.1 AAH02877.1 NP_005580.1 AAH00120.1 NP_003241.2 AAH01073.1 NP_031389.3 NP_037380.1 AAH04407.1 NP_115914.1 NP_066357.1 NP_003241.2 NP_006692.1 NP_078792.1 AAH01375.1 AAH04373.1 NP_057483.1 NP_057006.1 NP_061973.1 NP_000959.2 NP_000413.1 AAH01467.1 NP_006820.1 NP_060388.1 AAH01202.1 AAH02841.1 NP_001619.1 NP_003357.2 AAH00258.1 AAH04248.1 NP_001855.1 NP_113667.1 AAH04937.1 NP_006799.1 NP_005795.2 AAH00258.1 NP_057179.1 NP_036243.1 NP_001771.1 NP_001698.2 NP_005557.1 AAH00525.1 NP_112169.1 AAH03061.1 NP_002793.2 NP_002406.1 AAH00884.1 NP_001246.2 NP_510870.1 AAH05941.1 NP_001375.2 NP_060911.2 NP_003899.2 NP_005430.1 NP_005355.2 AAH00767.1 NP_115703.2 AAH06769.1 AAH00116.1 AAH00550.1 NP_005800.3 NP_004885.1 NP_009148.2 AAH07528.1 NP_005130.1 NP_004689.1 NP_001017956.1 NP_006821.1 AAH01466.1 AAH01030.1 AAH13158.1 NP_006614.2 NP_055706.1 NP_076942.1 NP_060489.1 NP_003519.1 NP_003268.1 NP_620058.1 NP_006614.2 AAH00682.1 NP_004051.1 NP_003600.2 AAH21690.1 NP_001005.1 AAH34022.1 AAH00509.1 NP_054752.3 NP_057663.1 NP_542389.1 AAH06191.1 NP_064526.1 NP_078839.1 AAH01072.1 P17031 ENSP00000311612 NP_009140.1 AAH08095.1 NP_116026.1 NP_004955.2 NP_054895.1 AAH00897.1 NP_006734.1 NP_002852.1 AAH08246.1 AAH04560.1 AAH00503.1 AAH01394.1 AAH00288.1 NP_009035.3 NP_003090.2 AAH00342.1 ENSP00000339589 NP_036399.3 AAH02553.1 NP_036453.1 AAH00867.1 NP_002120.1 NP_004981.2 NP_005353.1 NP_073210.1 NP_112589.1 AAH00506.3 NP_004484.1 NP_005995.2 NP_114060.1 NP_000275.1 AAH08031.1 NP_006160.1 AAH00463.1 NP_006793.1 NP_005787.1 AAH01127.1 NP_006392.1 NP_003009.1 AAH01740.1 NP_057342.2 NP_055140.1 AAH01952.1 NP_001070984.1 AAH04183.1 NP_036411.1 AAH01792.1 NP_004365.1 NP_006125.2 NP_061932.1 NP_002583.1 NP_003086.1 ENSP00000328363 NP_000977.1 NP_000017.1 ENSP00000306407 NP_060534.1 NP_002623.2 AAH02447.1 NP_057129.2 NP_076958.1 AAH02484.1 AAH00208.1 AAH08283.1 NP_057333.1 AAH01680.1 NP_542408.1 AAH06838.1 AAH00698.1 NP_001035869.1 NP_490647.1 NP_001528.1 AAH00203.1 ENSP00000314929 NP_077001.1 NP_057161.1 NP_787034.1 NP_937993.1 AAH06280.1 NP_006809.1 AAH20894.1 NP_078832.1 AAH06794.1 NP_057048.2 AAH00408.1 NP_542386.1 NP_002026.1 NP_004506.2 NP_002848.1 NP_055580.1 NP_036249.1 NP_004319.1 AAH09054.1 AAH06177.1 AAH00504.1 NP_077324.1 NP_878269.1 AAH00866.1 AAH29050.1 NP_003744.1 AAH07340.1 AAH00341.1 NP_005563.1 NP_003012.1 NP_004614.2 NP_001542.1 NP_002804.2 NP_004228.1 AAH01648.1 AAH01449.1 NP_001373.2 NP_001303.1 NP_004951.1 NP_001961.1 AAH00414.1 NP_524146.1 NP_057581.2 NP_004695.1 NP_002796.4 NP_004870.3 NP_113640.1 NP_112553.1 NP_003365.1 NP_004823.1 AAH02526.1 NP_004623.1 NP_057017.1 NP_057126.2 NP_003457.1 AAH06402.1 NP_115492.1 AAH00230.1 AAH01025.1 NP_000986.2 NP_003482.1 AAH02521.1 AAH07304.1 AAH00704.1 NP_076936.1 AAH04349.1 NP_001014.1 NP_112231.2 AAH00677.1 AAH16582.1 NP_003301.1 AAH00627.1 NP_076944.1 AAH06410.1 AAH07315.1 NP_076974.1 AAH10734.1 AAH06839.1 NP_066953.1 AAH01788.1 NP_000181.2 NP_001858.1 NP_002785.1 NP_002990.2 NP_004538.2 NP_001530.1 AAH00661.1 AAH09078.1 NP_644670.1 NP_055576.2 AAH22363.1 NP_001027463.1 NP_524147.2 NP_006642.1 NP_004701.1 AAH08975.1 AAH08286.1 NP_114174.1 NP_006101.1 NP_542160.1 AAH08641.1 NP_001092.1 NP_036465.2 NP_064574.1 NP_036534.1 NP_005707.1 AAH00313.1 NP_061975.2 AAH00944.1 NP_112242.1 NP_075013.1 NP_001947.1 AAH06499.1 NP_001921.1 NP_002494.2 NP_004742.1 AAH03096.1 AAH16821.1 AAH13132.1 AAH08386.3 AAH00417.1 AAH04292.1 AAH15221.1 NP_004690.1 AAH30814.1 NP_057124.2 AAH05966.1 NP_115736.1 ENSP00000340131 NP_036611.2 NP_689424.1 AAH26187.1 NP_005587.2 ENSP00000266661 NP_002955.2 NP_004302.1 AAH15562.1 AAH13684.1 NP_001006940.2 AAH16348.1 NP_783553.1 NP_009216.1 AAH14237.1 AAH10434.1 AAH16838.1 NP_036552.1 NP_689990.1 NP_055644.2 AAH11746.1 AAH08082.1 NP_057040.2 NP_003454.1 NP_775933.1 NP_001006117.2 AAH09552.1 NP_001027453.1 AAH07409.1 NP_982292.1 AAH10356.1 AAH29167.1 NP_005885.1 AAH17796.1 NP_057230.1 NP_055302.1 NP_001638.1 NP_065120.2 AAH34672.1 AAH29054.1 NP_001036100.1 AAH29349.1 NP_057257.1 AAH00574.1 AAH14117.1 NP_001575.1 NP_061972.1 NP_002801.1 NP_001281.1 NP_006126.1 NP_976309.1 AAH14353.1 NP_009193.2 NP_006560.2 NP_006221.1 NP_694537.1 NP_064552.2 NP_795344.1 NP_003970.1 AAH00953.1 NP_009195.1 NP_001027459.1 NP_003747.1 AAH12390.1 NP_000265.1 AAH00579.1 NP_006138.1 NP_061129.1 NP_000230.1 NP_004613.1 AAH16844.1 NP_057609.2 AAH00718.1 AAH17574.1 AAH12287.1 NP_954994.1 NP_055115.1 NP_112200.2 NP_602297.1 NP_006440.2 ENSP00000368688 NP_872577.1 AAH08461.1 NP_079095.2 AAH18929.3 AAH17070.3 NP_061948.1 ENSP00000314209 NP_077021.1 NP_666016.1 NP_777581.1 NP_065145.2 NP_778204.1 AAH11975.1 AAH30210.1 AAH21701.1 NP_006007.2 NP_004452.1 AAH32100.1 AAH14394.2 NP_005746.2 AAH31551.1 AAH36452.1 AAH10629.1 NP_116265.1 NP_006845.1 NP_077272.2 NP_066299.2 AAH31585.1 AAH36669.1 AAH22434.1 AAH13155.1 NP_005156.1 ENSP00000233713 NP_002483.1 NP_659508.1 NP_006555.1 NP_777556.1 AAH10868.1 NP_000145.1 NP_002008.2 NP_116249.2 NP_872338.1 NP_001005738.1 NP_060909.1 NP_849162.1 NP_001351.2 NP_001061.2 AAH32101.1 AAH29793.1 NP_060922.2 NP_055264.1 AAH30813.1 NP_004461.2 NP_001491.1 AAH16828.1 AAH16609.1 NP_079026.2 NP_002563.1 NP_001949.1 NP_620160.1 NP_438171.1 NP_683718.1 AAH00974.1 NP_004800.2 NP_002606.3 NP_001026887.1 NP_001008541.1 NP_689514.1 AAH34024.1 AAH03691.1 NP_079067.2 NP_006818.3 NP_006696.1 NP_683725.1 NP_036312.2 AAH33025.1 NP_536348.1 NP_056516.2 AAH01935.1 AAH00479.1 NP_001555.1 NP_689575.1 NP_598193.2 AAH30807.1 NP_060517.1 AAH08417.1 NP_001012270.1 NP_056455.3 AAH19300.1 NP_219491.1 AAH33027.1 NP_002403.1 NP_000995.1 NP_006546.1 ENSP00000339233 ENSP00000311751 NP_057174.1 AAH30229.1 NP_115765.2 NP_075067.2 NP_004540.1 NP_079354.2 AAH09486.1 AAH29781.1 NP_057648.2 AAH36661.1 AAH09696.1 AAH01656.1 NP_006867.1 AAH11713.1 AAH29057.1 NP_443095.2 AAH33582.1 AAH22443.1 NP_002452.1 NP_060064.2 AAH13925.1 NP_835471.1 NP_443095.2 NP_835364.1 AAH30812.1 ENSP00000354650 NP_057616.2 NP_001473.1 AAH34740.1 NP_671727.1 NP_000040.1 AAH22046.1 AAH15212.1 AAH03068.1 NP_112242.1 NP_003371.2 AAH34378.1 AAH29796.1 AAH29036.1 NP_982276.1 AAH22988.1 AAH30647.1 NP_002559.2 NP_008965.2 AAH20210.1 NP_694969.1 AAH27470.1 NP_689962.1 AAH34497.1 AAH18771.1 AAH16825.1 AAH10455.1 NP_689528.1 AAH00896.1 NP_694560.1 AAH29660.1 NP_115835.1 AAH15734.1 NP_003620.2 NP_000389.1 NP_005565.1 AAH04365.1 NP_660156.1 NP_115835.1 AAH15734.1 AAH34342.1 NP_000022.2 AAH30586.1 NP_060844.2 NP_001007257.1 AAH22217.1 NP_000197.1 AAH27179.1 AAH01265.1 NP_689723.1 NP_002633.1 AAH30665.1 AAH20501.1 NP_066927.1 NP_064624.1 ENSP00000318919 NP_689723.1 AAH26694.1 AAH27922.1 AAH16640.1 NP_066927.1 NP_036460.1 ENSP00000318919 NP_115850.1 AAH06468.1 NP_001003897.1 NP_006562.1 AAH11618.1 NP_036460.1 NP_060179.2 AAH33009.1 NP_037402.1 AAH30836.1 AAH24223.2 AAH17337.1 NP_277055.1 NP_060179.2 AAH30702.1 NP_005381.1 AAH30830.1 NP_001207.1 AAH21886.1 NP_277055.1 NP_689534.1 NP_001013456.1 AAH30778.1 AAH30587.1 AAH13184.1 NP_714913.1 AAH12289.1 NP_689534.1 AAH28425.1 AAH36446.1 AAH30780.1 AAH13184.1 NP_000576.1 NP_001007177.1 NP_002512.1 AAH04405.1 AAH19898.1 NP_671709.1 NP_005771.1 NP_001035808.1 AAH20826.1 AAH31570.1 AAH36465.1 NP_064616.2 AAH36370.1 NP_000099.2 AAH16675.1 AAH12738.1 AAH31570.1 AAH27476.1 NP_005029.1 NP_073747.1 AAH11680.1 AAH34729.1 NP_079036.1 NP_689648.1 NP_057529.1 NP_861440.1 NP_110382.2 NP_038474.1 NP_006225.1 NP_775284.1 NP_689648.1 AAH34052.1 AAH25742.1 ENSP00000363783 AAH09631.1 AAH11461.1 NP_057361.3 NP_777558.1 NP_000797.2 AAH09175.1 AAH33040.1 AAH20979.1 AAH11461.1 AAH18404.1 NP_777558.1 AAH32998.1 ENSP00000361115 NP_002278.1 AAH20979.1 AAH14482.1 AAH13112.1 NP_001012529.1 NP_055179.1 NP_057628.1 NP_009039.1 AAH15244.1 AAH20892.1 AAH13113.1 NP_005051.2 AAH32940.1 NP_057567.3 NP_009039.1 AAH13174.1 NP_938008.1 AAH23982.1 NP_008855.1 NP_005176.1 NP_002586.2 NP_006358.1 AAH13174.1 AAH19105.1 AAH23982.1 NP_036520.1 AAH32948.1 AAH36365.1 NP_078950.1 NP_612469.1 AAH00926.1 NP_005106.2 NP_476528.1 AAH30622.1 NP_004495.2 NP_001344.2 AAH17572.1 NP_777586.1 NP_002951.1 NP_057145.1 NP_872387.1 NP_064592.1 AAH34245.1 AAH14510.1 NP_068355.1 NP_660213.1 AAH22571.1 NP_694966.2 AAH36457.1 AAH22237.1 AAH16996.1 NP_963837.1 NP_660213.1 NP_002157.2 ENSP00000327038 NP_061180.1 AAH31469.1 NP_001637.1 NP_003024.1 ENSP00000357093 AAH34494.1 ENSP00000327038 NP_065806.1 AAH23152.1 NP_005266.2 NP_004567.1 ENSP00000357093 AAH30602.1 AAH20967.1 NP_006265.1 AAH13773.1 NP_057403.1 AAH15569.1 NP_001008489.1 NP_001032624.1 AAH30827.1 NP_066981.2 NP_001008708.1 NP_003331.1 NP_006078.2 NP_001008489.1 NP_055234.1 NP_079169.1 AAH30828.1 NP_005592.1 NP_775812.1 NP_006078.2 NP_004997.4 NP_776165.2 NP_003489.1 AAH34035.1 AAH15516.1 NP_001035996.1 AAH22329.1 AAH17588.1 ENSP00000320536 NP_872310.1 AAH30585.1 AAH17788.1 NP_005639.1 ENSP00000365420 AAH28384.1 NP_004320.2 ENSP00000306594 NP_149126.1 AAH13005.1 NP_001020376.1 NP_005043.1 AAI25061.1 AAH27951.1 NP_005847.1 NP_114108.1 NP_004193.1 AAH11014.1 NP_001020329.1 — AAH17969.1 AAH22042.1 AAH22854.1 NP_542777.1 AAH12317.1 AAH14098.1 NP_004392.1 AAH26264.1 AAH22042.1 AAH25985.1 NP_443182.1 NP_891980.1 AAH11010.1 NP_001872.3 AAH17348.1 NP_071448.1 AAH20692.1 AAH12325.1 NP_114156.1 AAH09479.1 NP_002943.2 NP_932342.1 NP_057130.1 AAH22003.1 NP_056203.2 AAH11906.1 Q93015 NP_116164.2 NP_620141.1 NP_000869.1 AAH19928.1 NP_075568.1 AAH12079.1 AAH25791.1 NP_000253.1 AAH14307.1 NP_064532.1 NP_689604.1 NP_620149.1 NP_055117.1 NP_005367.1 NP_037374.1 NP_000328.2 NP_003872.1 NP_003197.2 NP_612640.1 NP_008990.2 AAH11562.1 AAH04960.1 AAH20633.1 NP_110381.1 AAH17304.1 NP_002612.1 NP_001001701.1 AAH09851.1 AAH09946.1 NP_001017435.1 AAH18713.1 NP_660309.1 NP_002695.1 NP_002546.2 NP_113647.1 NP_003507.1 AAH26104.1 AAH12933.1 NP_473364.1 NP_060883.1 AAH16051.1 NP_005717.2 NP_008964.3 NP_002720.1 AAH21680.1 AAH18441.1 AAH18928.1 AAH28112.1 NP_071425.2 NP_076994.1 NP_002720.1 AAH13935.1 NP_922945.1 AAH20942.1 NP_060357.1 NP_071425.2 NP_077295.1 AAH27853.1 NP_068733.1 NP_000599.1 NP_056155.1 AAH09458.1 AAH26026.1 NP_055173.1 NP_079401.2 NP_056209.2 ENSP00000263070 AAH11895.1 NP_036328.1 AAH12493.1 NP_115903.1 NP_066998.1 NP_149037.2 AAH20791.1 NP_061825.2 AAH27473.1 NP_057022.2 AAH11353.1 AAH20227.1 NP_006740.1 AAH26171.1 AAH09264.1 AAH31273.1 NP_057022.2 NP_114403.1 NP_006658.1 AAH27952.1 AAH21861.1 ENSP00000262935 AAH12111.1 NP_660297.1 AAH00001.1 NP_689497.1 NP_002051.2 AAH21186.1 NP_064571.1 AAH09822.1 ENSP00000329313 NP_077019.1 NP_620144.1 AAH22278.1 NP_005208.1 AAH17381.1 AAH12815.1 ENSP00000329313 NP_036544.1 AAH20615.1 NP_000223.1 AAH21101.1 NP_001769.2 AAH21682.1 NP_001035842.1 NP_085049.1 AAH22888.1 NP_057283.1 AAH22403.1 NP_055200.1 NP_006207.1 NP_115501.1 AAH03566.1 AAH27599.1 AAH21822.1 NP_653192.1 NP_004882.1 AAH25332.1 NP_054754.1 NP_006326.1 AAH24241.1 AAH13912.1 NP_653192.1 AAH10426.1 NP_660314.1 AAH09348.1 NP_061955.1 AAH27911.1 NP_660346.1 ENSP00000333257 NP_004476.1 AAH12569.1 NP_612434.1 AAH00769.1 AAH27954.1 AAH20601.1 AAH16340.1 NP_659450.1 NP_056137.1 NP_066993.1 NP_000281.2 AAH20841.1 NP_114117.1 AAH14340.1 NP_612472.1 NP_005010.2 NP_115911.1 NP_057180.1 AAH20841.1 AAH22958.1 NP_073623.1 NP_059973.2 AAH03642.1 AAH04219.1 AAH10464.1 AAH20670.1 NP_149987.2 AAH14312.1 NP_071337.2 NP_612448.1 NP_077296.1 NP_612455.1 NP_037453.1 NP_001454.2 AAH16697.1 NP_003541.2 NP_056008.1 NP_115678.1 NP_542433.1 NP_110438.1 AAH19015.1 ENSP00000307825 NP_071801.1 NP_570133.1 AAH01632.1 NP_899195.1 AAH15128.1 AAH20605.1 NP_705931.1 NP_150597.1 NP_002129.2 AAH03597.1 AAH04277.1 NP_056475.1 NP_115868.1 AAH12303.1 NP_660343.1 NP_115963.1 AAH03597.1 AAH00112.1 NP_005847.1 NP_002984.1 NP_000191.1 NP_149092.2 NP_653284.1 AAH00827.1 NP_060058.1 NP_004878.2 NP_003818.2 NP_061174.1 AAH27182.1 NP_115692.1 NP_149019.1 AAH20788.1 NP_004238.2 NP_004772.1 AAH09108.1 NP_115813.1 AAH31044.1 AAH25755.1 NP_001992.1 AAH01698.1 NP_057731.1 NP_525127.1 AAH10498.1 AAH34801.1 AAH31042.1 AAH29510.1 NP_002005.1 NP_001144.1 NP_005096.1 NP_055555.1 NP_620156.1 NP_001012649.1 AAH06295.1 NP_066926.1 NP_077006.1 AAH18206.1 AAH20560.1 NP_004153.2 NP_291024.1 NP_060311.1 AAH08624.1 NP_068809.1 NP_006443.1 AAH11991.1 NP_009204.1 NP_008960.2 NP_940909.1 NP_001543.2 NP_079094.1 AAH18109.1 NP_006672.1 NP_689482.1 NP_789796.1 NP_689503.1 NP_001041636.1 AAH18426.1 AAH01861.1 NP_057155.1 AAH11979.1 AAH29795.1 AAH31674.1 NP_078960.1 NP_036449.1 NP_004735.2 NP_612460.1 NP_653227.1 NP_689649.1 NP_003247.1 ENSP00000254324 NP_054761.1 NP_116235.2 NP_068762.1 NP_057131.1 AAH07277.1 AAH29860.1 NP_057642.1 NP_001113.2 AAH33842.1 NP_116019.1 AAH26221.1 NP_005173.1 AAH28090.1 NP_006003.1 AAH04241.1 NP_001977.1 AAH20637.1 AAH32120.1 NP_689945.2 NP_001017929.1 NP_061921.1 AAH03184.1 NP_000993.1 NP_689669.1 NP_060575.1 NP_954654.1 NP_694944.1 NP_003624.1 NP_002699.1 AAH08131.1 AAH15904.1 NP_001013633.1 AAH14448.1 AAH33843.1 AAH01129.1 AAH01271.1 AAH14776.1 NP_113638.1 NP_001013633.1 NP_149032.1 NP_000963.1 NP_077011.1 AAH00263.1 AAH16866.1 NP_219482.1 NP_005857.1 AAH03637.1 NP_476527.1 AAH16280.1 AAH00728.1 AAH13613.1 AAH15316.1 NP_036261.1 NP_005825.1 NP_976048.1 AAH13609.1 AAH05004.1 AAH12295.1 NP_005025.1 AAH05056.1 NP_079412.1 NP_003333.1 AAH12131.1 NP_038464.1 NP_689474.1 NP_620157.1 AAH30290.1 NP_038473.2 NP_002811.1 NP_004059.2 AAH11519.1 NP_689702.1 AAH16843.1 NP_115719.1 NP_150286.1 AAH31875.1 NP_055021.1 AAH11460.1 NP_872355.1 AAH16905.1 NP_073568.2 NP_001014989.1 AAH30295.1 AAH04242.1 NP_065155.2 NP_079472.1 NP_061935.1 NP_775876.1 AAH14451.1 AAH03651.1 NP_004956.5 AAH10538.1 NP_001297.1 NP_003542.1 AAH33856.1 NP_001642.1 NP_001413.1 NP_006263.1 NP_443103.1 NP_149976.1 AAH30260.1 AAH34350.1 AAH33661.1 AAH07756.1 NP_060924.4 AAH17085.1 AAH10522.1 AAH29224.1 AAH22080.1 AAH22074.1 NP_075567.1 AAH00189.1 NP_060947.1 AAH16464.1 NP_570719.1 NP_653195.1 NP_689883.1 AAH31606.1 AAH01132.1 NP_002810.1 NP_001018078.1 AAH10518.1 AAH30991.1 AAH15773.1 AAH28127.1 NP_060540.2 NP_054766.1 AAH20960.1 AAH13069.1 AAH29848.1 NP_002992.1 NP_003273.1 NP_009011.1 AAH20569.1 NP_004618.2 AAH15374.1 AAH29541.1 NP_001073159.1 NP_056511.2 AAH11454.1 AAH26175.1 ENSP00000331919 AAH12848.1 NP_775956.1 NP_076434.2 NP_060135.1 AAH03115.1 AAH16380.1 AAH20107.1 NP_060755.1 AAH20713.1 NP_002470.2 NP_004040.1 AAH03158.1 NP_001001346.1 NP_005089.2 ENSP00000283646 NP_065730.2 NP_689536.1 NP_002045.1 AAH02831.1 NP_001001346.1 AAH07766.1 NP_599025.2 NP_612464.1 NP_061984.2 NP_057075.1 AAH04955.1 AAH11400.1 NP_000841.1 AAH17769.1 AAH31427.1 NP_057125.2 AAH33871.1 AAH29402.1 NP_001665.1 NP_004214.1 NP_003242.1 AAH27471.1 NP_003085.1 NP_006814.1 AAH29770.1 AAH22393.1 AAH30957.1 AAH30237.1 AAH30200.1 AAH20867.1 AAH27454.1 NP_689523.1 NP_006792.1 NP_056263.1 ENSP00000362435 AAH30200.1 NP_689608.1 XP_001128648.1 NP_115985.2 AAH08849.1 NP_653171.1 AAH34280.1 NP_001001561.1 AAH08623.1 NP_006510.1 NP_694572.1 NP_078867.2 NP_525126.2 AAH22069.1 NP_001001561.1 NP_776171.1 AAH33770.1 NP_542157.1 AAH03519.1 NP_660293.1 AAH05919.1 NP_001302.1 NP_006219.1 AAH33770.1 NP_001415.1 NP_000257.1 NP_001166.3 NP_115787.1 ENSP00000315478 NP_006295.1 AAH30801.1 AAH34354.1 NP_004879.1 NP_037422.2 AAH32143.1 AAH31655.1 AAH02713.1 NP_057057.2 AAH18970.1 AAH22348.1 NP_077275.1 ENSP00000233627 AAH31827.1 AAH32010.1 NP_001035251.1 AAH32799.1 NP_689930.1 AAH02792.1 AAH22101.1 NP_000336.1 NP_005022.2 NP_699181.1 AAH33736.1 AAH31997.1 NP_073729.1 ENSP00000346344 NP_689566.1 NP_001817.1 NP_055039.1 NP_115493.1 NP_006649.1 NP_065736.1 NP_001034933.1 NP_060293.2 NP_001001503.1 NP_055039.1 NP_004301.1 NP_001168.1 NP_005589.1 AAH29565.1 AAH11730.1 NP_689979.1 NP_004558.1 NP_000747.1 NP_065693.2 AAH31990.1 NP_694952.1 AAH27472.1 NP_002977.1 NP_001026971.1 AAH28904.1 NP_659488.1 NP_149076.1 AAH34822.1 NP_002150.1 AAH29362.1 NP_570720.1 AAH09415.1 AAH33734.1 AAH15651.1 AAH35312.1 XP_001130874.1 AAH06182.1 NP_570720.1 NP_006489.1 NP_689866.1 NP_653260.1 ENSP00000347973 NP_036588.1 NP_060056.1 NP_620693.1 NP_113679.1 NP_079234.1 AAH17956.1 NP_036242.1 AAH31676.1 AAH17423.1 NP_620693.1 NP_689746.1 AAH06346.1 AAH02677.1 AAH00277.1 AAH29877.1 NP_976326.1 AAH00450.1 AAH02724.1 NP_940929.1 NP_775741.1 NP_115732.2 AAH31661.1 ENSP00000335276 AAH00450.1 NP_001027449.1 AAH18737.1 NP_002434.1 AAH25747.1 NP_057284.1 AAH08699.1 NP_036601.2 NP_002980.1 NP_612438.1 AAH09516.1 ENSP00000252987 NP_003271.1 AAH27338.1 NP_054808.1 AAH31050.1 AAH16138.1 AAH32771.1 AAH34228.1 NP_689551.1 AAH28227.1 NP_054808.1 AAH31045.1 NP_694976.1 ENSP00000317518 NP_443079.1 AAH34353.1 AAH17869.1 XP_934009.1 NP_660205.2 AAH15732.1 AAH32246.1 NP_000896.1 AAH33847.1 AAH29527.1 AAH32312.1 NP_660323.2 AAH08299.1 AAH29785.1 NP_115789.1 NP_976056.1 NP_116015.2 NP_201575.2 AAH29851.1 NP_005820.1 AAH33818.1 ENSP00000375059 NP_976056.1 NP_680544.1 NP_690877.1 NP_789782.1 AAH19651.1 NP_076420.1 AAH34717.1 AAH34713.1 NP_056519.1 NP_690877.1 NP_001823.1 AAH26238.1 AAH34571.1 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NP_004327.1 ENSP00000278064 NP_689991.1 NP_112565.1 NP_612395.1 NP_620147.1 NP_775909.1 NP_005255.1 AAH30599.1 NP_078926.2 AAH29496.1 AAH16559.1 ENSP00000224807 NP_060143.3 NP_057592.1 AAH30612.1 NP_078926.2 NP_659465.2 AAH16559.1 ENSP00000224807 AAH34477.1 XP_939056.1 NP_001018865.1 NP_612632.1 NP_659465.2 NP_002188.1 NP_006662.2 NP_733797.1 NP_037412.2 AAH26965.1 XP_001129114.1 AAH29174.1 NP_002188.1 NP_006662.2 NP_006193.1 NP_722548.1 AAH26965.1 NP_001032402.1 NP_061896.1 NP_076415.2 NP_001810.1 AAH30790.1 AAH34483.1 NP_835365.1 AAH31637.1 NP_005632.1 AAH20879.1 NP_064601.3 AAH30790.1 AAH30598.1 NP_002821.1 P20839 NP_002717.3 NP_055984.1 NP_064601.3 AAH27465.1 AAH30598.1 NP_003591.2 NP_005037.1 NP_002717.3 NP_000118.2 AAH00091.1 AAH29228.1 ENSP00000352220 AAH11392.1 NP_000590.1 NP_612385.1 AAH08359.1 AAH00091.1 NP_004062.2 AAH30656.1 NP_079087.2 NP_689948.1 NP_612385.1 AAH13103.1 AAH32805.1 NP_064570.1 AAH30656.1 NP_570858.1 AAH32249.1 NP_066958.2 AAH13103.1 AAH32805.1 NP_001268.2 AAH29395.1 NP_570858.1 ENSP00000299538 AAH07493.1 NP_067041.1 ENSP00000364056 AAH33918.1 AAH29395.1 NP_689912.1 AAH06376.1 ENSP00000319020 NP_112487.1 NP_001434.1 AAH19954.1 AAH33851.1 AAH30704.1 AAH29886.1 NP_612445.1 NP_005267.2 AAH30659.1 AAH36649.1 NP_000011.2 NP_149094.2 AAH29886.1 AAH28113.1 NP_005267.2 NP_002997.1 NP_060867.1 NP_009125.1 AAH30020.1 NP_060569.3 NP_005414.1 NP_006730.2 NP_002997.1 AAH30597.1 ENSP00000357264 NP_054726.1 AAH34687.1 AAH30207.1 NP_006730.2 NP_076964.1 AAH32945.1 AAH33310.1 NP_005940.1 AAH32775.1 NP_000696.1 NP_004197.1 NP_076964.1 AAH21741.1 NP_003774.1 NP_061857.2 NP_542406.2 AAH00140.1 NP_078982.2 AAH13119.1 AAH30525.1 AAH30580.1 NP_003179.1 NP_005031.1 NP_001146.2 NP_002086.1 ENSP00000268514 AAH02769.1 NP_115880.2 NP_005872.1 ENSP00000264866 NP_001146.2 AAH36003.1 ENSP00000268514 ENSP00000307753 NP_079021.2 NP_116212.3 NP_057107.2 AAH30005.1 AAH36003.1 NP_114428.1 NP_001265.1 AAH30613.1 AAH20523.1 NP_075380.1 AAH30804.1 NP_006744.2 NP_006822.1 NP_055141.2 AAH30613.1 AAH30833.1 NP_001072994.1 AAH30804.1 NP_065394.1 AAH04159.1 NP_113649.1 ENSP00000296779 AAH34468.1 AAH02555.1 NP_003896.1 NP_065394.1 AAH15969.1 NP_002287.2 AAH26959.1 NP_064562.1 Q8TC21 NP_079120.1 AAH10563.1 AAH33817.1 NP_060613.1 NP_001978.1 AAH34327.1 AAH06334.1 NP_055385.2 NP_000252.1 AAH12888.1 AAH13292.1 AAH31653.1 NP_068807.2 NP_001010933.1 NP_055385.2 AAH06317.1 NP_001662.1 AAH29499.1 AAH22078.1 NP_061883.1 AAH29858.1 NP_004282.1 AAH06317.1 NP_067043.2 AAH33708.1 AAH29532.1 NP_006103.1 NP_000701.2 NP_002599.1 NP_055494.2 AAH07602.1 NP_942009.1 NP_689520.2 NP_006103.1 AAH01917.1 NP_036397.1 AAH34784.1 AAH20600.1 AAH11902.1 AAH10458.1 AAH20722.1 NP_073625.1 AAH31052.1 NP_061856.1 AAH20600.1 NP_079062.1 NP_694987.1 NP_002905.2 ENSP00000324364 NP_858057.1 AAH22075.1 AAH01245.1 NP_001223.2 AAH10061.1 NP_110401.1 AAH29869.1 AAH32477.1 AAH32466.1 NP_060997.2 NP_001223.2 AAH07741.1 NP_110401.1 NP_987100.1 AAH31046.1 AAH08785.1 AAH29121.1 NP_941989.1 NP_116069.1 AAH28221.1 AAH03072.1 AAH33862.1 NP_000681.2 AAH29121.1 NP_001037835.1 AAH29504.1 AAH13115.1 NP_037455.2 AAH30970.1 AAH34432.1 NP_059110.2 AAH21860.1 NP_003186.1 AAH33665.1 NP_037455.2 NP_005586.1 NP_004840.1 AAH33681.1 NP_001951.2 NP_002422.1 AAH06318.1 NP_001034554.1 AAH15667.1 AAH11892.1 AAH29652.1 NP_004820.1 AAH24193.1 AAH10691.1 NP_001034554.1 AAH18128.1 NP_004328.1 AAH15993.1 NP_550435.1 AAH02794.1 NP_060103.2 NP_073624.2 AAH32242.1 AAH07230.1 NP_057405.1 NP_002491.2 NP_932351.1 NP_892025.1 AAH07710.1 NP_115682.1 XP_290546.3 NP_036390.3 AAH29520.1 AAH22253.1 NP_892025.1 NP_000279.1 NP_006677.1 AAH20855.1 NP_775796.1 NP_689827.1 AAH22253.1 AAH29896.1 AAH09650.1 NP_065837.1 NP_005819.3 AAH00026.1 AAH30155.1 AAH15028.1 AAH29896.1 NP_003214.1 NP_940991.1 AAH05034.1 AAH20726.1 AAH26961.1 AAH03569.1 NP_003947.1 AAH29483.1 NP_001001850.1 AAH22341.1 NP_115570.1 NP_059431.1 AAH33819.1 AAH09780.1 NP_919309.1 NP_005750.4 AAH31592.1 NP_115570.1 NP_003303.2 NP_056481.1 AAH20674.1 NP_438170.1 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AAH36038.1 AAH53664.1 NP_740752.1 AAH51285.1 NP_689622.2 NP_872311.2 AAH30815.1 AAH53365.1 AAH61699.1 NP_001009877.1 AAH21973.1 AAH61519.1 NP_115998.2 NP_005350.1 NP_055776.1 AAH56672.1 NP_002944.2 AAH24038.1 AAH12499.1 AAH58822.1 NP_001028174.1 AAH14142.1 NP_055380.1 NP_004422.2 NP_076951.2 AAH28292.1 AAH58881.1 AAH56256.1 AAH30015.1 Q8NGE7 AAH35721.1 NP_002489.1 NP_005626.1 AAH12736.1 AAH36723.1 NP_667341.1 NP_000732.2 NP_852106.1 AAH60319.1 NP_036418.1 NP_001018008.1 NP_112170.1 NP_057622.1 AAH46099.1 AAH53656.1 ENSP00000330982 AAH56162.1 AAH56257.1 AAH21256.1 NP_998839.1 AAH35364.1 AAH39317.2 NP_001033582.1 AAH36923.1 NP_060240.2 NP_115910.1 NP_005485.1 NP_116281.2 NP_694545.1 NP_689481.2 AAH35619.1 AAH36943.1 AAH57841.1 NP_001005226.1 NP_056535.1 NP_775786.2 AAH60766.1 NP_699204.1 NP_006774.2 NP_005943.1 NP_057479.2 AAH60773.1 NP_000731.1 AAH53343.1 NP_004831.1 AAH36947.1 NP_795361.1 AAH39999.1 AAH42684.1 NP_000848.1 AAH59379.1 AAH34953.1 NP_001004426.1 AAH56877.1 AAH51810.2 AAH59396.1 AAH53909.1 NP_997219.1 AAH47690.1 NP_001004426.1 AAH41082.2 AAH61590.1 NP_997001.1 AAH20929.1 AAH57245.1 AAH09189.1 AAH30832.1 NP_653324.1 AAH57237.1 NP_073152.1 AAH58833.1 NP_808779.1 NP_940683.1 AAH51863.1 ENSP00000371067 AAH56413.1 AAH09550.1 AAH56409.1 AAH46449.1 NP_776254.2 AAH57809.1 ENSP00000371067 AAH23603.2 NP_004284.1 NP_057610.2 AAH23288.1 AAH51300.1 AAH58837.1 NP_001354.1 NP_789763.1 ENSP00000369883 NP_694581.1 AAH55096.1 AAH56253.1 NP_003912.1 AAH22419.1 AAH05026.1 NP_003932.3 AAH53984.1 AAH53624.1 NP_055441.2 AAH57787.1 NP_001005325.1 AAH25314.1 NP_056341.1 NP_001073002.1 AAH53624.1 P22794 AAH52604.1 AAH58890.1 AAH00914.1 AAH52802.1 AAH50407.1 NP_057053.1 AAH38808.1 AAH07015.1 NP_002554.1 NP_473448.1 NP_068370.1 AAH60758.1 NP_115527.3 NP_777612.1 ENSP00000349237 AAH39576.2 NP_001027461.1 ENSP00000340256 AAH60879.1 NP_000920.1 NP_056106.1 AAH35574.1 NP_057704.2 AAH56891.1 AAH59380.1 AAH51332.1 NP_001001871.1 NP_003558.1 NP_699193.1 NP_001136.1 NP_002488.1 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AAH57393.1 NP_001548.1 NP_001143.1 AAH10425.1 NP_054859.2 NP_115878.2 NP_001094.1 AAH58932.1 NP_078935.2 AAH32698.1 AAH51868.2 AAH42174.1 NP_005473.1 AAH52988.1 NP_149100.1 NP_003882.1 NP_631916.1 AAH23549.1 AAH35972.1 NP_689919.1 AAH35514.1 AAH56887.1 NP_002744.1 AAH35634.1 NP_783316.2 NP_005177.2 AAH27994.1 NP_005028.4 NP_085131.1 NP_001027454.1 AAH39820.1 NP_689988.1 NP_009198.3 NP_004748.2 AAH22045.1 NP_055448.1 AAH60802.1 AAH47865.1 NP_036420.1 NP_060117.2 NP_006501.1 AAH16944.1 AAH51765.1 AAH16967.1 AAH40516.1 NP_000523.2 NP_005442.2 AAH53542.1 AAH05022.1 NP_056331.2 NP_085142.1 AAH40231.1 AAH19251.1 NP_077000.1 NP_002728.1 NP_036292.2 AAH17058.1 NP_056485.2 AAH45534.1 NP_006187.1 NP_004661.2 NP_115786.1 AAH45639.2 NP_001087.2 AAH41664.1 NP_001001937.1 NP_055784.2 NP_653329.1 AAI01659.1 NP_003407.1 NP_002352.1 NP_004936.2 AAH10089.1 NP_775858.1 NP_001008395.1 AAH50069.1 NP_005691.2 NP_002224.1 NP_004278.2 AAH03656.1 AAH52311.1 AAH27937.1 AAH39904.1 NP_036419.2 NP_859066.1 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NP_001026916.1 NP_940961.1 NP_872433.1 AAH20968.1 NP_003215.1 AAH57772.1 AAH36354.1 NP_000358.1 AAH53508.1 NP_004239.1 AAH53879.1 NP_004571.2 AAH27900.1 AAH46128.1 AAH50058.1 AAH53676.1 NP_006075.3 AAH50622.1 NP_073149.1 ENSP00000371316 AAH38983.1 AAH41407.1 NP_002417.2 NP_060893.1 AAH58845.1 NP_057647.1 NP_848647.1 AAH38983.1 NP_003622.2 NP_055538.2 NP_000956.2 NP_002975.1 NP_005105.1 NP_848647.1 AAH21987.1 NP_690603.2 NP_005911.1 NP_004565.1 NP_981956.1 NP_003828.2 ENSP00000348336 AAH35006.1 NP_775739.1 NP_008837.1 NP_000112.1 NP_981956.1 NP_003828.2 AAH53561.1 AAH35048.1 AAH47472.1 AAH32833.2 AAH55427.1 NP_775921.1 AAH44245.1 AAH59384.1 ENSP00000272421 AAH36869.1 AAH40546.1 AAH53670.1 NP_004574.2 AAH23528.2 AAH56889.1 AAH40481.1 NP_071342.1 AAH52586.1 NP_003844.1 AAH53536.1 AAH40966.1 AAH56889.1 AAH40265.1 AAH42482.1 AAH57808.1 NP_038465.1 AAH40630.1 AAH05025.1 AAH60858.1 NP_037454.2 NP_114160.1 NP_003627.1 AAH07897.1 NP_001405.1 NP_002610.1 NP_000873.2 NP_775765.1 AAH16345.1 NP_006009.1 NP_002063.2 NP_001405.1 NP_536316.1 NP_078987.3 AAH40696.1 NP_000047.1 NP_000666.2 AAH47664.1 NP_003847.2 NP_112243.1 NP_068503.1 AAH17594.1 AAH50387.1 NP_001517.1 AAH54510.1 AAH18764.1 NP_665683.1 NP_065110.1 AAH17594.1 NP_065947.1 AAH57228.1 NP_002552.2 ENSP00000330752 NP_899062.1 AAH47948.1 AAH47765.1 AAH36035.1 NP_003731.1 NP_997195.1 AAH47698.1 NP_000361.1 AAH23260.1 AAH42864.1 NP_694580.1 NP_065154.2 AAH93009.1 AAH52966.1 NP_001001657.1 AAH38592.1 NP_009155.1 NP_694580.1 NP_003233.4 AAH35875.1 AAH52600.1 AAH53594.1 AAH60042.1 AAH26274.1 NP_699176.1 AAH47702.1 AAH53901.1 AAH56682.1 AAH46362.1 AAH60834.1 NP_001397.1 NP_055974.1 AAH53878.1 NP_001377.1 AAH58823.1 AAH42481.1 NP_003960.1 NP_001397.1 NP_982249.1 NP_004545.2 AAH60818.1 NP_775287.1 NP_703151.1 AAH21585.1 NP_114142.3 NP_982249.1 NP_002052.1 AAH36075.1 NP_000693.1 AAH13186.1 AAH07685.1 AAH11989.1 NP_031399.2 NP_002052.1 AAH36075.1 NP_056244.2 NP_954661.1 AAH11414.1 NP_055400.1 AAH25409.1 NP_055482.1 NP_061942.2 AAH45609.1 NP_115515.2 AAH11553.1 NP_055400.1 AAH37854.1 NP_055482.1 NP_061942.2 AAH00012.1 AAH45606.1 NP_055556.2 AAH36827.1 AAH42753.1 NP_001006611.1 AAH36057.1 NP_001715.1 AAH40071.1 AAH45643.1 AAH47075.1 NP_001036002.1 NP_001880.2 AAH40183.1 NP_068744.1 NP_000690.1 AAH40521.1 NP_060047.2 AAH38799.1 NP_001880.2 AAH43347.1 NP_112569.2 NP_060962.2 NP_000077.1 AAH47578.1 AAH32950.1 NP_062562.1 NP_659455.2 NP_000377.1 AAH09489.1 NP_071381.1 AAH37207.1 NP_005784.1 NP_062562.1 NP_071894.1 AAH04278.1 NP_536341.1 NP_659466.1 AAH37207.1 NP_219480.1 NP_055211.2 NP_071894.1 NP_003428.1 AAH03064.1 AAH22564.1 NP_115665.1 NP_219480.1 AAH36884.1 NP_006780.1 NP_002126.2 NP_055135.1 NP_057113.1 NP_005399.1 NP_005108.1 AAH36884.1 NP_976050.1 NP_036280.1 NP_004364.2 AAH05125.1 NP_005399.1 NP_005108.1 AAH32851.1 NP_115500.1 AAH42606.1 AAH22243.1 NP_115902.1 NP_003335.1 AAH28244.1 NP_999626.1 NP_003702.2 NP_005791.2 AAH21685.1 NP_001982.2 NP_003335.1 NP_006243.2 NP_543152.1 NP_060399.1 AAH47324.1 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NP_203755.1 AAH14140.1 NP_005245.2 NP_006635.2 AAH32541.1 NP_689491.1 NP_003113.2 NP_115714.1 NP_005428.1 NP_005005.1 AAH45667.1 NP_776168.1 AAH08254.1 NP_036592.1 AAH11250.1 NP_005428.1 NP_055732.2 NP_699163.2 NP_776168.1 AAH07251.1 NP_006262.1 AAH13353.1 AAH50603.1 AAH37285.1 AAH36101.1 NP_006527.1 AAH07926.1 AAH04943.1 AAH14413.1 AAH39582.1 AAH37209.1 AAH33559.1 NP_064710.3 AAH04462.1 ENSP00000354169 NP_113686.1 AAH39014.1 AAH37209.1 NP_066368.2 NP_064710.3 NP_004988.2 AAH08370.1 AAH06134.1 NP_001922.2 NP_079002.3 NP_002549.1 AAH50524.1 NP_787120.1 AAH07022.1 AAH03678.1 NP_003491.1 NP_079002.3 NP_006617.1 NP_005008.2 AAH50419.1 NP_689545.1 AAH04449.1 AAH43410.1 AAH36109.1 NP_006795.2 AAH50711.1 AAH36890.1 NP_115670.1 NP_005866.1 AAH39260.1 NP_057535.1 AAH47091.1 AAH46157.1 AAH05058.1 AAH35556.1 NP_065102.1 NP_065982.1 NP_057535.1 AAH35409.1 AAH40280.1 NP_689918.1 AAH07080.1 AAH39731.1 AAH03663.1 AAH50535.1 AAH41846.1 NP_055281.2 AAH24231.1 NP_004117.1 AAH51835.1 NP_659417.1 NP_001286.1 AAH35621.1 NP_004864.1 AAH22313.1 AAH11549.1 NP_932068.1 NP_079130.2 NP_055688.1 NP_037484.1 NP_733776.1 AAH01717.1 AAH15981.1 NP_115788.1 AAH16470.1 AAH50433.1 AAH52800.1 AAH50263.1 AAH08016.1 AAH01000.1 AAH12108.1 AAH36089.1 NP_001901.1 NP_775838.2 NP_775101.1 NP_116317.1 AAH04321.1 AAH12159.1 NP_066940.1 NP_002426.1 AAH36054.1 AAH50424.1 NP_002753.2 NP_005944.1 AAH08251.1 AAH30026.1 NP_005917.2 AAH50097.1 AAH50424.1 AAH50334.1 NP_001007270.1 ENSP00000371247 AAH35256.1 NP_005917.2 AAH47016.1 AAH35608.1 NP_006107.1 NP_054890.1 NP_116299.1 AAH47455.1 NP_066551.1 AAH51909.1 NP_775790.1 AAH50329.1 NP_783860.1 NP_004086.1 NP_689660.2 AAH10362.1 NP_006165.1 AAH39266.1 AAH14621.1 AAH35914.1 NP_001003796.1 AAH32853.1 AAH41031.1 AAH39082.1 AAH40455.1 AAH05072.1 AAH44952.1 NP_002752.1 AAH50358.1 NP_004847.2 AAH32941.1 AAH50636.1 AAH16389.1 NP_036454.1 NP_036458.2 AAH32944.1 AAH36053.1 AAH36091.1 NP_065702.2 NP_071289.1 AAH08618.1 NP_005264.2 AAH59395.1 NP_115800.1 NP_775831.1 NP_001070712.1 AAH25707.1 NP_001012329.1 NP_001117.2 AAH59395.1 NP_001068567.1 NP_056249.1 AAH50551.1 NP_115685.1 NP_689951.1 AAH12096.1 AAH39269.1 AAH45695.1 ENSP00000361488 NP_003659.2 AAH08026.1 ENSP00000326016 NP_001993.2 AAH39269.1 NP_710154.1 NP_073743.2 NP_714918.1 AAH07866.1 NP_055277.1 AAH14145.1 NP_055932.1 AAH42628.1 AAH23635.1 NP_872345.1 AAH05348.3 AAH05231.1 NP_003730.4 NP_071404.2 AAH14260.1 NP_078799.2 NP_000142.1 ENSP00000345965 AAH30608.1 NP_064716.1 AAH09106.1 AAH13962.1 AAH14247.1 NP_002948.1 NP_059976.1 NP_775845.1 NP_114416.1 ENSP00000261400 AAH28148.1 AAH15109.1 NP_733749.1 NP_057626.2 NP_003693.2 AAH15564.1 NP_004076.1 ENSP00000328215 NP_006434.1 NP_060302.1 NP_000755.2 NP_054829.2 NP_775758.1 NP_057701.1 AAH43619.1 AAH33758.1 NP_149124.3 NP_055111.1 NP_110397.1 NP_872633.1 AAH20779.1 AAH05382.1 AAH01012.1 AAH31622.1 NP_000482.3 NP_000714.3 AAH48251.1 ENSP00000294179 AAH26967.1 NP_005400.1 NP_001677.2 NP_036233.2 AAH32355.1 NP_689876.2 NP_660284.1 NP_659489.1 AAH05220.1 NP_689851.1 NP_002014.2 AAH08457.1 AAH43528.1 AAH17497.1 NP_001233.1 NP_063940.1 NP_008861.2 AAH16987.1 NP_060474.1 NP_002453.1 NP_659436.1 AAH12170.1 NP_060000.1 NP_008862.1 AAH19823.1 AAH40272.1 NP_659425.1 AAH14258.1 AAH12068.1 AAH11584.1 NP_057625.1 AAH53600.1 NP_060743.2 AAH18772.1 AAH25714.1 AAH14129.1 NP_036531.1 NP_114102.2 NP_973729.1 NP_665805.2 NP_689985.1 NP_064535.1 AAH19046.1 NP_689477.2 NP_000856.1 NP_057668.1 AAH40351.1 NP_001737.1 NP_296375.1 NP_002888.1 NP_775096.1 ENSP00000312472 NP_005297.1 AAH45191.1 NP_945319.1 NP_003755.2 NP_004378.1 NP_055488.1 NP_055964.3 NP_004503.1 AAH41376.1 AAH23667.1 AAH05255.1 NP_112163.1 AAH28917.1 NP_006170.1 NP_001085.2 NP_004858.1 NP_079497.2 AAH07458.1 AAH47023.1 NP_932765.1 NP_005794.1 NP_001141.1 NP_000190.1 NP_001724.3 AAH14139.1 NP_077268.1 AAH26023.1 NP_005674.2 NP_065795.1 AAH15015.1 NP_683760.1 AAH11551.1 AAH11883.1 NP_001634.1 NP_065177.2 AAH34984.1 NP_060863.2 AAH51902.1 NP_055151.3 AAH12070.1 AAI10873.1 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ENSP00000362888 AAH29529.1 AAH31073.1 NP_115898.2 AAH12142.1 NP_115900.1 NP_000379.2 NP_001012734.1 NP_004943.1 AAH06105.1 NP_006750.3 NP_078974.1 AAH12051.1 NP_067026.2 NP_722579.1 AAH24746.1 NP_005300.1 NP_079493.1 NP_001495.1 AAH50328.1 NP_055290.1 AAH16922.1 AAH51820.1 NP_689610.1 AAH03355.1 AAH16552.1 NP_689537.1 NP_694993.2 NP_114412.2 NP_003611.1 NP_005103.2 AAH22451.1 AAH32474.1 NP_005162.1 AAH36784.1 AAH34810.1 NP_005139.1 AAH30516.1 NP_115595.2 NP_006284.2 NP_057386.2 AAH34692.1 NP_078953.2 AAH13740.1 AAH32452.1 NP_689889.1 NP_061833.1 AAH29267.1 NP_653286.2 AAH36817.1 AAH12946.1 AAH32393.1 NP_006390.1 NP_008998.1 NP_689785.1 AAH33893.1 NP_542193.3 AAH12946.1 NP_055118.1 NP_110421.1 AAH14924.1 NP_597724.1 NP_009046.2 NP_694998.1 NP_112490.2 AAH32499.1 AAH32302.1 NP_061149.1 AAH32518.1 AAH42179.1 AAH29498.1 NP_079514.1 AAH38515.1 AAH32456.1 AAH16730.1 AAH32715.1 NP_444274.1 AAH29498.1 AAH31228.1 AAH22983.1 AAH32462.1 AAH48107.1 AAH32645.1 NP_689654.1 NP_067020.2 AAH32326.1 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AAH22501.1 AAH33872.1 AAH34014.1 NP_001158.2 NP_001862.2 NP_699195.1 AAH32379.1 AAH22501.1 NP_057376.1 NP_060174.2 AAH36492.1 NP_057018.1 AAH34965.1 NP_002570.2 AAH28141.1 NP_003612.1 NP_078914.1 NP_001026915.1 AAH30111.1 NP_443172.1 NP_660160.1 AAH34222.1 NP_001004051.1 AAH07767.1 AAH24890.1 AAH36556.1 NP_001316.1 NP_057234.2 AAH29608.1 AAH09113.1 NP_003992.3 AAH30835.1 NP_055292.1 AAH32598.1 NP_694593.1 NP_003440.1 NP_003260.1 NP_055540.2 AAH36679.1 NP_996846.1 AAH36390.1 NP_061755.1 NP_003440.1 AAH29554.1 NP_000791.1 AAH29540.1 NP_699170.1 AAH33881.1 AAH24725.1 AAH32330.1 NP_689998.1 AAH32587.1 NP_113618.2 AAH29485.1 AAH13187.1 AAH27241.1 NP_689884.1 AAH32372.1 AAH32587.1 AAH32850.1 AAH31567.1 NP_055220.1 AAH27241.1 AAH32396.1 AAH32334.1 AAH45538.1 AAH28138.1 NP_006468.1 AAH21740.1 AAH30279.1 NP_057186.1 NP_002003.1 AAH49216.1 AAH15345.1 AAH40844.1 AAH31084.1 AAH30287.1 ENSP00000297967 NP_689498.1 AAH09330.1 NP_067033.1 AAH16879.1 NP_002514.1 AAH30287.1 NP_079174.2 NP_009185.2 NP_060496.2 NP_003784.2 AAH17210.1 AAH11992.1 AAH29583.1 AAH17713.1 NP_058641.1 NP_056505.1 AAH12105.1 NP_003067.3 NP_056179.1 NP_000189.1 NP_110395.1 NP_795363.1 AAH13426.1 AAH09993.1 AAH11870.2 AAH00819.1 AAH51885.1 NP_149040.2 NP_056953.2 NP_000024.2 NP_060255.2 NP_443175.1 AAH00819.1 AAH05085.1 NP_872333.1 NP_001077.1 AAH20981.1 NP_067042.1 NP_055589.1 NP_775746.1 NP_149053.1 AAH34495.1 AAH21146.1 AAH15764.1 NP_079017.1 NP_006588.1 NP_775746.1 AAH16057.1 NP_061732.1 NP_644808.1 AAH26251.1 AAH05404.1 NP_680481.1 NP_149093.1 NP_000895.1 NP_037514.2 AAH08782.1 NP_695003.1 AAH14474.1 AAH09117.1 NP_064501.1 AAH47450.1 AAH32455.1 NP_004517.2 AAH24289.1 NP_085044.2 AAH19266.1 AAH30590.1 AAH27622.1 NP_849154.1 AAH02582.2 AAH09571.1 AAH25959.1 AAH22389.1 NP_055839.2 NP_005751.2 NP_001485.2 NP_689983.1 NP_006433.2 AAH09744.1 NP_004705.1 AAH16673.1 NP_005751.2 NP_001416.1 AAH19883.1 NP_002604.1 NP_060740.1 AAH25276.1 NP_001017979.1 AAH28730.1 NP_005432.1 NP_002307.1 AAH14356.1 NP_002892.1 NP_722550.1 XP_939065.1 AAH34376.1 AAH36468.1 NP_061028.1 NP_060279.2 NP_002350.1 AAH09978.1 NP_115726.1 ENSP00000331835 NP_059985.2 AAI17424.1 NP_113653.1 AAH41037.1 NP_612367.1 NP_001019818.1 AAH15220.1 NP_056061.1 NP_076411.1 AAH15231.1 AAH28124.1 AAH19034.1 NP_000989.1 AAH47021.1 NP_055999.1 NP_000393.2 NP_115542.2 AAH33748.1 NP_057097.2 ENSP00000258909 NP_060846.2 NP_055999.1 NP_061894.1 AAH15768.1 NP_061322.2 NP_057355.2 NP_001020267.1 NP_060846.2 AAH34488.1 AAH35601.1 AAH20784.1 NP_004144.2 AAH09289.1 AAH44584.1 AAH15417.1 AAH36515.1 AAH08825.1 AAH24295.1 AAH17936.1 AAH18142.1 NP_659444.1 AAH16647.1 AAH31609.1 AAH07565.1 NP_001824.1 NP_065109.1 NP_002818.1 AAH34607.1 NP_004105.1 NP_000671.1 AAH00567.1 NP_060523.2 AAH25949.1 NP_001994.2 NP_758441.2 NP_919298.1 NP_002571.1 AAH31688.1 NP_001010972.1 AAH14271.1 AAH18722.1 AAH28218.1 NP_004873.3 NP_679211.1 NP_653239.1 AAH14649.1 NP_004064.2 NP_036300.2 NP_872381.1 NP_085140.1 AAH15932.1 NP_002986.1 NP_003678.2 NP_061980.1 NP_001750.1 AAH35687.1 NP_085140.1 NP_001005339.1 NP_061826.1 AAH16929.1 AAH14428.1 AAH09395.1 NP_004562.2 AAH33043.1 NP_060367.1 NP_795367.1 AAH19358.1 NP_000691.1 NP_149103.1 AAH11957.1 AAH29792.1 NP_005133.2 NP_076926.2 NP_002654.2 NP_006770.1 AAH14137.1 NP_071941.1 NP_536724.1 NP_775889.1 NP_000222.1 NP_055467.2 NP_079402.2 NP_003580.1 NP_001027018.1 AAH47443.1 NP_002729.2 NP_542401.1 AAH15763.1 NP_006444.2 AAH32125.1 AAH44884.1 NP_008844.1 NP_056538.1 AAH35058.1 NP_002965.1 AAH13590.1 NP_001028170.1 AAH34943.1 AAH10632.1 AAH33030.1 AAH07722.1 NP_660296.1 AAH17941.1 ENSP00000347273 NP_000350.1 AAH10632.1 NP_059131.1 AAH00478.1 NP_116009.1 NP_071912.2 NP_001026849.1 NP_055865.1 AAH22497.1 NP_000804.1 NP_003309.2 AAH13376.1 AAH25963.1 NP_004168.1 AAH31061.1 AAH17713.1 NP_001700.2 NP_003309.2 NP_055225.1 AAH06141.1 NP_060352.1 NP_077305.2 AAH18950.1 NP_000519.2 NP_004283.2 NP_000490.1 AAH06141.1 AAH22230.1 AAH16853.1 NP_001285.1 NP_077306.1 NP_004283.2 NP_003437.2 NP_066014.1 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AAH33184.1 NP_001278.1 NP_005741.1 AAH01446.1 NP_002993.1 NP_000394.2 AAH17180.2 AAH33242.1 NP_000880.1 NP_689890.1 ENSP00000321160 NP_077808.1 AAH28178.1 NP_055066.1 NP_064560.1 NP_000880.1 NP_861456.1 NP_619515.1 NP_001598.1 NP_066988.1 NP_005724.1 NP_116116.1 NP_683721.1 NP_003704.3 NP_008914.1 NP_818932.1 AAH32713.1 AAH30058.1 NP_076425.1 NP_004703.1 NP_002995.1 NP_660328.1 XP_001128983.1 NP_009173.1 NP_001844.3 NP_003312.3 AAH03666.1 NP_000748.3 AAH18292.1 AAH15743.1 NP_004243.1 NP_115824.1 AAH30139.1 ENSP00000340719 AAH01853.1 NP_039234.1 AAH15743.1 AAH22347.1 NP_000519.2 NP_062547.1 AAH31343.1 AAH10084.1 NP_060934.1 NP_116262.2 NP_922921.1 AAH43386.1 NP_002174.1 NP_000150.1 NP_006017.1 NP_653254.1 AAH01076.1 NP_075385.1 NP_078854.1 AAH32656.1 NP_000392.1 NP_001013269.1 NP_005038.1 NP_055395.2 NP_115746.1 AAH29444.1 NP_001009996.1 ENSP00000323681 AAH02955.1 AAH20873.1 NP_057513.1 NP_005645.1 NP_115767.1 NP_689521.1 NP_859074.1 NP_079255.2 NP_005291.1 AAH20622.1 NP_055436.2 NP_003901.2 NP_689521.1 NP_859074.1 NP_005622.1 AAH24267.1 NP_064629.2 NP_036237.2 AAH33064.1 AAH30984.1 AAH25406.1 AAH12172.1 NP_689634.1 AAH17310.1 NP_955360.1 AAH15823.1 AAH29406.1 NP_001040.1 NP_004784.2 NP_077287.1 AAH21217.2 NP_001005502.1 NP_115580.2 NP_002247.3 NP_777597.1 AAH03555.1 NP_004550.2 AAH15008.1 NP_659407.1 NP_001004714.1 NP_002247.3 NP_057676.1 NP_001631.3 NP_079147.1 AAH04952.1 NP_065133.1 NP_976046.1 AAH33154.1 AAH29359.1 AAH33195.1 AAH07957.1 NP_115731.1 NP_005441.1 NP_001445.2 NP_689509.1 NP_689724.3 NP_478679.1 NP_057118.1 AAH07803.1 NP_076943.1 AAH32708.1 AAH04257.1 NP_689724.3 NP_663747.1 NP_061031.2 NP_008872.1 NP_064511.2 NP_067640.2 NP_001004478.1 NP_057029.8 NP_036270.1 AAH15619.1 AAH00765.1 NP_000337.1 AAH34146.1 NP_001873.2 AAH33088.1 AAH00013.1 NP_065103.1 AAH71837.1 AAH07628.1 AAH34141.1 AAH29580.1 NP_068839.1 NP_005558.1 NP_004245.2 AAH14475.1 AAH05212.1 NP_955374.1 NP_005513.1 AAH14949.1 NP_071920.1 AAH18691.1 AAH17797.1 NP_006311.1 NP_060703.3 NP_071338.1 NP_002094.2 NP_002740.2 NP_612468.1 AAH20619.1 AAH15731.1 NP_055095.2 NP_001535.1 NP_073597.2 NP_620074.1 AAH36706.1 NP_116175.1 AAH17959.1 NP_112483.1 AAH30983.1 AAH36084.1 AAH03126.1 NP_003895.1 NP_003855.1 NP_079435.1 NP_055687.1 NP_060184.2 NP_001864.1 NP_001093.1 AAH08804.1 NP_689633.1 NP_001001550.1 NP_778237.1 NP_067045.1 NP_003213.1 AAH33167.1 NP_116295.1 AAH02907.1 AAH09383.1 NP_060194.1 AAH33153.1 NP_000016.1 AAH34937.1 AAH07823.1 NP_037481.1 AAH18688.1 AAH42418.1 NP_002473.2 NP_536351.1 AAH33121.1 ENSP00000304809 NP_542391.1 NP_665813.1 NP_000736.2 AAH08715.1 NP_005914.1 AAH33121.1 AAH19036.1 NP_054786.2 AAH34142.1 NP_443091.1 ENSP00000323224 AAH14627.1 NP_612431.1 NP_003766.1 NP_076949.1 AAH29480.1 NP_001309.3 AAH47522.1 NP_001347.3 NP_005727.1 NP_071756.2 AAH14336.1 AAH31300.1 AAH29465.1 NP_612366.1 NP_071446.2 NP_001174.2 NP_055085.1 AAH14477.1 AAH33130.1 AAH29377.1 NP_612366.1 AAH13362.1 NP_004490.2 NP_660330.1 AAH17918.1 NP_055078.1 NP_150638.1 AAH37776.1 NP_055239.1 NP_056418.1 NP_212134.2 AAH20719.1 NP_065793.1 NP_932161.1 NP_426359.1 NP_006701.1 NP_219488.1 NP_076941.2 AAH21925.1 ENSP00000314065 NP_003582.2 AAH30997.1 NP_077016.1 AAH05090.1 NP_002169.1 NP_000465.1 AAH50689.1 AAH05139.1 AAH29378.1 NP_116052.1 NP_003079.1 NP_003495.1 NP_112236.3 NP_060608.1 NP_001004134.1 NP_003608.1 AAH06122.3 NP_543138.1 NP_061115.2 NP_006577.2 NP_062823.1 NP_477518.1 AAH34918.1 NP_000294.1 NP_620428.1 NP_116752.1 NP_003867.1 NP_066983.1 AAH01898.1 NP_005517.1 NP_004539.1 NP_954701.1 AAH05321.1 NP_067646.1 NP_001577.1 NP_001005465.1 NP_076983.1 NP_056222.1 AAH13399.1 AAH32662.1 NP_055377.1 NP_000340.2 NP_001005465.1 AAH01725.1 NP_001340.2 NP_003984.2 NP_057699.2 NP_001038.1 NP_000909.2 AAH36746.1 NP_009194.2 NP_003906.1 NP_068568.1 AAH10991.1 NP_003354.2 AAH34145.1 AAH31090.1 NP_001005178.1 NP_005720.1 NP_524575.1 NP_620412.1 AAH19087.1 AAH30783.1 NP_006496.2 AAH33935.1 NP_005720.1 NP_004556.1 AAH12198.1 AAH10013.1 NP_689926.1 NP_112493.2 AAH26101.1 ENSP00000331089 NP_002698.1 NP_000971.1 NP_663633.1 NP_006129.4 AAH28579.1 NP_057185.1 NP_057013.1 NP_000300.1 AAH01794.1 AAH29379.1 AAH00723.1 NP_955369.1 AAH10661.1 NP_001319.1 AAH04519.1 NP_037524.1 AAH07719.1 AAH01785.1 AAH15505.1 AAH27962.1 AAH01052.1 NP_065174.1 AAH02710.1 AAH03097.1 NP_115691.1 AAH42922.1 NP_543030.1 NP_847894.1 NP_079543.1 AAH07660.1 NP_003293.2 NP_001850.1 NP_056456.1 NP_065995.1 NP_003328.1 NP_653316.2 NP_003112.2 NP_004854.1 AAH31087.1 NP_001668.1 NP_919442.1 NP_060341.2 NP_863658.1 NP_002565.1 AAH06084.1 AAH25709.1 NP_005490.1 AAH26303.1 NP_848526.1 NP_116161.2 AAH41709.1 AAH08356.1 AAH17017.1 NP_001004466.1 ENSP00000367731 NP_039268.1 NP_036205.1 AAH22247.1 AAH05308.1 AAH13586.1 AAH35602.2 AAH04549.1 NP_005846.1 NP_005662.1 AAH09256.1 NP_005627.1 AAH33082.1 NP_064564.1 AAH05345.1 AAH50718.1 NP_612426.1 NP_067645.3 NP_004293.1 NP_005332.1 NP_612138.1 AAH00844.1 NP_058647.1 NP_005356.1 NP_060611.2 NP_000619.3 AAH11926.1 AAH14789.1 AAH07894.1 AAH08813.3 AAH30556.1 AAH07734.1 NP_006361.1 NP_006755.3 AAH23021.1 NP_057569.2 NP_071888.1 NP_036277.2 AAH01727.1 AAH54005.1 NP_060292.2 AAH56249.1 NP_219481.1 AAH07765.1 NP_061111.1 AAH01910.1 NP_892023.1 AAH01871.1 AAH15030.1 AAH13966.1 NP_002390.1 NP_060860.1 AAH02810.1 AAH21180.1 NP_004451.2 NP_060590.1 NP_002784.1 AAH07082.1 AAH05386.1 AAH08765.1 AAH11171.1 AAH29560.1 NP_005423.1 NP_954988.1 NP_006397.1 AAH32583.1 AAH07298.1 NP_055288.1 NP_699161.1 NP_003937.1 NP_076939.3 NP_542383.1 NP_734464.1 AAH05341.1 NP_008955.1 NP_006695.1 NP_002405.1 NP_001702.1 AAH01110.1 NP_060448.1 NP_001952.1 AAH20090.1 NP_060381.1 NP_001004729.1 NP_001035535.1 NP_003920.1 NP_733820.1 NP_000726.1 NP_055630.2 AAH37270.1 NP_443169.1 NP_002914.1 NP_057488.1 NP_006761.1 NP_054782.2 NP_071428.2 AAH37270.1 AAH29811.1 NP_001017364.1 AAH37303.1 AAH07439.1 AAH15740.1 NP_071428.2 NP_055159.2 AAH15940.1 NP_004272.2 AAH06411.1 NP_060492.1 AAH30956.1 NP_057154.2 NP_663722.1 AAH11404.1 ENSP00000264080 NP_003853.1 NP_001025.1 AAH07760.1 NP_001018077.1 AAH20810.1 NP_036228.1 ENSP00000264080 NP_003853.1 AAH02642.1 NP_057707.3 NP_054815.2 AAH02560.1 NP_004757.1 AAH08429.1 NP_005962.1 AAH08906.1 NP_003752.2 NP_057533.2 NP_056347.1 AAH15801.1 AAH08912.1 AAH05064.1 NP_071286.1 AAH05330.1 NP_001181.2 NP_079056.2 AAH25765.1 AAH17492.1 AAH50549.1 AAH08410.1 NP_001026900.1 NP_004046.2 NP_079056.2 AAH40902.1 NP_058642.1 AAH33728.1 NP_201573.1 NP_110426.4 AAH33790.1 AAH21192.1 AAH07424.1 NP_004716.1 NP_003339.1 NP_000615.2 AAH05951.1 AAH52303.1 AAH02920.1 AAH02655.1 NP_660159.1 AAH29487.1 NP_057223.1 AAH07382.1 AAH10852.1 NP_071925.2 AAH33777.1 NP_062552.2 AAH14566.1 NP_665877.1 NP_004898.2 NP_002805.1 NP_073733.1 AAH10056.1 NP_077004.2 NP_076423.2 NP_060316.1 NP_077292.1 NP_004126.1 NP_955447.1 NP_115695.1 AAH42428.1 NP_004477.2 AAH36107.1 NP_057100.1 AAH39714.1 NP_009211.1 AAH07925.1 NP_000806.2 NP_919256.1 NP_005841.1 AAH00284.1 AAH13153.1 ENSP00000341497 AAH60764.1 NP_115737.1 NP_004007.1 NP_071327.2 AAH13200.1 NP_000317.1 NP_006238.1 NP_061189.2 NP_002479.1 NP_937847.1 NP_057228.1 AAH14863.1 NP_005778.1 NP_789762.1 NP_055724.1 NP_569735.1 AAH39826.1 AAH05065.1 NP_689554.2 AAH09194.1 NP_001907.2 AAH07070.1 NP_006520.2 NP_054757.1 NP_005991.1 NP_001431.1 AAH00453.1 NP_000157.1 AAH12621.1 AAH03398.1 NP_057480.2 NP_116215.1 NP_001431.1 NP_620125.1 NP_003745.1 AAH70334.1 NP_005425.1 AAH32008.1 NP_036357.1 NP_065715.1 AAH33731.1 NP_004189.1 NP_612427.2 NP_001147.1 NP_060140.2 ENSP00000302344 AAH12379.1 ENSP00000354607 NP_055127.2 NP_976248.1 NP_005612.1 AAH25926.1 AAH16715.1 NP_113622.1 NP_001017408.1 NP_055127.2 AAH35350.1 AAH62552.1 NP_689950.1 NP_001020.2 AAH39075.1 NP_002608.1 AAH32400.1 NP_056157.1 NP_958836.1 NP_112233.2 NP_055109.1 AAH47030.1 AAH00152.1 NP_060840.2 NP_057211.4 AAH36242.1 ENSP00000340716 NP_775832.1 NP_597997.1 AAH41143.1 NP_001008485.1 NP_068777.1 AAH33816.1 AAH50465.1 AAH08288.1 NP_001208.2 AAH36809.1 NP_001035809.1 NP_689671.2 NP_036229.1 NP_065748.1 NP_078874.2 NP_060147.2 NP_057227.2 AAH12021.1 NP_653190.2 NP_037462.1 NP_660313.1 AAH05297.1 NP_476430.1 AAH08788.1 NP_000565.1 AAH09689.1 NP_808907.1 AAH48282.1 AAH06429.1 NP_068590.1 NP_612410.1 AAH45768.1 NP_115699.1 NP_112558.2 NP_001001974.1 AAH07828.1 AAH33775.1 NP_115688.1 NP_115708.1 AAH11795.1 NP_036473.2 NP_852468.1 NP_000301.1 NP_006191.2 NP_071440.1 NP_077289.1 AAH70287.1 NP_003688.1 NP_689693.1 AAH08361.1 AAH09678.1 NP_695008.1 NP_006319.1 AAH02767.1 NP_006349.1 AAH08808.1 NP_005044.1 NP_057703.1 NP_036307.2 AAH10942.1 NP_689947.2 NP_000723.1 AAH11890.1 NP_002080.1 NP_000091.1 NP_775879.1 AAH02921.1 NP_065855.1 NP_037487.2 NP_000790.1 NP_055217.2 NP_004624.1 NP_872369.1 NP_001018070.1 AAH32348.1 NP_060422.4 NP_653312.2 NP_758436.1 NP_001013861.1 NP_006619.1 NP_588616.1 NP_001531.1 AAH15521.1 AAH02634.2 AAH15497.1 NP_003527.1 NP_001035737.1 ENSP00000249786 AAH07618.1 NP_443183.1 AAH32866.1 NP_065723.1 AAH02670.1 AAH00377.1 NP_689999.1 AAH41945.1 AAH32954.1 AAH27942.1 NP_055443.1 AAH20803.1 NP_009038.1 NP_006271.1 AAH48120.1 NP_000703.2 AAH09644.1 NP_115753.1 NP_009066.1 ENSP00000325264 AAH62743.1 NP_001313.1 NP_958816.1 AAH66316.1 NP_085047.1 NP_150635.1 NP_899064.1 NP_004897.2 NP_570132.1 AAH64837.1 AAH67830.1 AAH05182.1 NP_997657.1 AAH08744.2 AAH68094.1 NP_734466.1 AAH68512.1 AAH66304.1 NP_054907.1 AAH63107.1 NP_940892.1 NP_009103.2 NP_443082.2 NP_954587.1 AAH67519.1 NP_079204.1 NP_660184.1 NP_060370.1 NP_006196.1 AAH70290.1 AAH62422.1 AAH67519.1 NP_004543.1 NP_113617.1 AAH62344.1 AAH69807.1 AAH70189.1 AAH69185.1 NP_060872.1 NP_001758.1 NP_002991.2 NP_848932.1 NP_065160.1 NP_006571.1 NP_078843.2 NP_005503.1 NP_055334.2 AAH00657.1 AAH06222.1 AAH65552.1 NP_001492.1 NP_065158.3 NP_064632.2 NP_059109.3 NP_060767.2 NP_036471.1 AAH64939.1 AAH59405.1 NP_057288.1 AAH03530.1 AAH64512.1 AAH26013.1 AAH06005.1 NP_997006.1 AAH65030.1 NP_203131.1 AAH06388.2 AAH62323.1 AAH15665.1 AAH01180.1 NP_444513.1 NP_056256.1 NP_005938.1 AAH06388.2 AAH62338.1 AAH00663.2 NP_899229.1 AAH65717.1 NP_115895.1 NP_065801.1 NP_078954.3 NP_000858.2 AAH62313.1 NP_444295.1 NP_671730.1 NP_002288.1 NP_001070833.1 NP_078954.3 NP_079458.2 NP_001028839.1 NP_060859.3 AAH69023.1 AAH64834.1 AAH64836.1 NP_062558.1 NP_060827.2 NP_694961.1 AAH67080.1 NP_057047.3 NP_689416.1 AAH68442.1 NP_062558.1 NP_112590.1 NP_542141.1 AAH62359.1 AAH70146.1 NP_116220.1 AAH65738.1 AAH66913.1 NP_055316.2 NP_037541.1 AAH65370.1 NP_066290.1 AAH70125.1 AAH63127.1 AAH66340.1 NP_055316.2 NP_000875.2 NP_542188.1 AAH69668.1 AAI01632.1 NP_038472.2 NP_443731.2 NP_006592.3 NP_055588.2 NP_542188.1 AAH63283.1 NP_001732.1 NP_001004312.1 NP_443731.2 NP_689670.1 NP_006849.1 NP_001890.1 NP_056085.1 NP_004155.2 AAH70228.1 AAH67857.1 NP_059980.2 NP_996782.1 NP_001887.1 NP_115812.1 NP_073613.2 NP_001033.1 AAH67446.1 AAH26039.1 NP_073564.3 NP_054736.1 AAH70071.1 AAH44891.2 NP_003040.1 NP_078810.1 AAH64515.1 AAH23593.1 NP_002856.1 AAH62688.1 NP_000578.2 NP_115952.1 AAH68575.1 NP_653280.1 NP_060309.2 AAH01152.1 AAH63126.1 NP_056104.2 NP_009208.2 NP_002346.1 AAH62297.1 AAH62353.1 AAH23973.1 NP_710161.1 NP_003145.1 AAH65566.1 NP_871629.1 AAH67220.1 NP_945187.1 NP_055428.1 AAH68070.1 NP_003145.1 NP_009121.1 NP_116117.2 AAH04305.1 NP_740746.3 AAH18760.2 AAH70203.1 NP_775789.2 AAH68514.1 AAH07811.2 ENSP00000334041 NP_001008219.1 NP_001009941.1 AAH70298.1 NP_997248.1 AAH68555.1 NP_996665.1 NP_003944.1 AAH02869.1 NP_839946.1 NP_004114.1 AAH68071.1 NP_653165.2 NP_116236.1 NP_004688.2 NP_112496.1 NP_002609.1 NP_000890.1 NP_001004331.1 AAH04258.2 NP_079305.2 AAH03160.1 AAH05984.1 AAH62736.1 AAH63275.1 NP_000807.2 NP_908974.1 AAH67755.1 NP_659483.1 AAH02448.1 NP_006543.1 AAH65525.1 AAH69734.1 NP_114406.1 NP_001001330.1 NP_443167.2 AAH50537.2 AAH62696.1 NP_690577.2 NP_004933.1 AAH11001.2 AAH66876.1 AAH02427.2 AAH50537.2 AAH62663.1 AAH68482.1 AAH62613.1 AAH68537.1 NP_733759.1 NP_733759.1 NP_057359.2 NP_644809.1 AAH64634.1 AAH69344.1 AAH65277.1 AAH17789.1 NP_005508.1 NP_001004306.1 AAH12852.2 AAH64634.1 AAH69344.1 AAH64841.1 NP_000188.1 NP_113661.2 NP_006318.1 NP_689809.2 AAH65534.1 NP_002813.2 NP_612207.1 NP_660358.2 NP_113661.2 AAH68446.1 NP_000510.1 AAH65290.1 AAH65195.1 NP_612207.1 NP_000367.1 NP_036323.2 AAH67773.1 AAH69329.1 NP_061969.3 NP_054781.1 NP_277041.1 AAH67132.1 NP_060401.2 NP_997213.1 NP_004982.1 NP_659427.2 AAH65518.1 AAH66942.1 AAH62415.1 NP_006636.2 AAH67445.1 NP_658982.1 AAH32416.1 AAH64945.1 NP_849163.1 AAH62415.1 AAH66938.1 NP_071924.1 NP_002531.3 NP_002279.2 AAH65928.1 NP_057146.1 NP_612477.3 NP_004031.1 NP_071503.1 NP_004260.2 NP_001225.1 NP_149060.1 NP_848591.1 NP_689820.1 AAH68460.1 NP_001009584.1 NP_653214.2 NP_003552.1 NP_003080.2 NP_689901.1 AAH70073.1 AAH68530.1 NP_001009584.1 NP_653214.2 NP_710153.2 AAH69363.1 AAH22895.1 AAH17957.1 AAH68530.1 NP_653337.1 NP_001007247.1 AAH63479.1 NP_006598.1 NP_073591.2 NP_002156.2 AAH67736.1 AAH12584.1 NP_115487.2 NP_598368.2 NP_056411.1 AAH63312.1 AAH10919.1 AAH67423.1 NP_116264.2 NP_057439.2 NP_001321.1 AAH69416.1 AAH65936.1 NP_003091.2 NP_003512.1 AAH70109.1 AAH55408.1 AAH64940.1 Q5SZD1 AAH62459.1 NP_005273.1 NP_006419.2 NP_683710.1 AAH33580.1 NP_006379.2 Q5SZD1 NP_783313.1 NP_598003.2 AAH02723.1 NP_683710.1 NP_003856.1 NP_976029.1 AAH63500.1 AAH64144.1 NP_055549.1 AAH02723.1 AAH67779.1 NP_644811.1 AAH17586.2 NP_473361.1 NP_078860.2 NP_663768.1 AAH14519.1 NP_997220.1 NP_061124.1 AAH35143.1 NP_055275.1 NP_000371.1 NP_001002018.1 AAH11643.1 AAH68585.1 NP_899066.1 AAH69472.1 NP_064708.1 AAH00717.1 NP_001116.1 NP_061126.2 NP_068575.1 NP_277030.2 NP_002562.2 NP_898882.1 AAH47411.1 AAH62475.1 AAH68594.1 NP_000660.1 AAH64367.1 NP_006069.1 NP_620409.1 NP_055775.2 AAH66960.1 AAH68448.1 NP_149978.1 NP_071447.1 NP_065980.1 AAH24244.1 NP_115887.1 ENSP00000342031 NP_848928.1 NP_060336.3 NP_079358.3 AAH62592.1 NP_004518.1 NP_005032.2 ENSP00000342031 AAH66334.1 NP_036606.2 NP_055982.2 AAH64545.1 AAH69491.1 NP_997223.1 NP_001790.1 NP_612508.2 AAH09503.2 NP_056991.2 AAH64593.1 NP_002332.1 AAH66364.1 AAH13328.1 NP_000581.1 NP_079352.2 NP_690004.3 NP_640341.1 NP_778230.1 NP_976308.1 AAH21730.1 NP_000581.1 AAH66987.1 NP_689666.2 NP_005366.2 NP_849155.2 NP_067027.1 AAH21730.1 NP_004382.1 NP_001013644.1 NP_061194.2 NP_742034.1 AAH64553.1 NP_067027.1 NP_001001953.1 NP_612378.1 XP_001126561.1 AAH69328.1 NP_076962.2 AAH64547.1 NP_002384.2 NP_981950.1 NP_004385.1 AAH66347.1 NP_002762.2 AAH39318.1 AAH64638.1 NP_997528.1 AAH64700.1 NP_057690.2 AAH67520.1 NP_919310.1 AAH39318.1 NP_942590.1 NP_036366.3 AAH69184.1 NP_060104.2 AAH67520.1 ENSP00000304618 NP_000385.1 NP_066923.3 NP_077022.1 NP_002298.1 NP_057359.2 NP_000868.1 AAH64534.1 NP_000487.1 NP_758455.1 NP_115943.1 AAH68031.1 NP_000930.1 NP_059107.1 AAH63463.1 NP_002398.1 NP_006733.1 AAH64984.1 NP_078994.2 NP_001028679.1 AAH69358.1 AAH63463.1 NP_149080.2 NP_003148.1 NP_073626.1 NP_078994.2 NP_001035534.1 NP_060456.2 AAH32588.1 NP_001011538.1 AAH28034.1 NP_009048.1 AAH68587.1 NP_005172.1 NP_055368.1 NP_115676.1 NP_116245.2 NP_976086.1 NP_660294.1 NP_002678.2 AAH23990.1 AAH63666.1 NP_598001.1 AAH63469.1 AAH62442.1 AAH15935.1 NP_861968.1 NP_258412.1 NP_001007099.1 Q13523 NP_005760.1 NP_543022.1 NP_114479.1 NP_954712.1 NP_006424.2 NP_006393.2 NP_742078.1 AAH36535.1 AAH70256.1 NP_203699.1 AAH48980.1 NP_997235.2 AAH06371.1 AAH62375.1 NP_004188.1 AAH67089.1 NP_919445.1 NP_006828.2 NP_001020751.1 AAH06371.1 NP_150593.1 NP_004188.1 NP_005759.4 NP_057574.2 NP_660304.1 AAH67257.1 AAH22516.1 NP_997051.1 NP_005095.1 NP_008884.1 NP_115733.2 NP_861448.1 NP_001034660.1 AAH22516.1 AAH59366.1 NP_004570.2 AAH11742.1 AAH64898.1 AAH63648.1 AAH64145.1 NP_055891.1 NP_057229.1 NP_113668.2 NP_116179.2 NP_149441.1 NP_060343.1 AAH62471.1 NP_055891.1 NP_057229.1 NP_113668.2 NP_065171.2 AAH62423.1 NP_991403.1 NP_001035904.1 NP_004712.1 NP_057158.1 NP_009188.1 AAH34435.1 NP_954872.1 AAH60775.1 AAH00381.1 NP_004712.1 NP_620126.2 NP_001891.2 NP_068741.1 NP_976033.1 NP_001035865.1 AAH35137.1 NP_005035.1 NP_001012745.1 NP_955376.1 NP_054723.1 AAH04346.1 NP_612412.2 AAH35137.1 NP_775788.2 NP_699166.2 NP_055136.1 NP_004004.1 AAH12885.1 NP_689508.3 AAH13918.1 NP_694542.1 NP_005299.1 NP_071439.3 AAH62564.1 NP_004966.1 NP_996801.1 NP_113670.1 NP_002074.2 NP_004681.1 NP_115815.1 NP_004698.2 AAH63311.1 AAH40529.1 NP_955358.1 AAH60850.1 NP_937983.2 NP_003498.1 NP_060191.3 AAH62583.1 AAH07360.1 NP_115497.3 NP_776248.1 NP_005169.1 NP_006549.1 AAH64612.1 NP_777555.1 NP_006340.1 NP_115497.3 AAH59778.1 AAH63110.1 NP_002602.2 NP_005805.1 NP_057632.2 NP_619643.2 NP_003383.2 NP_663748.1 AAH68078.1 NP_004746.2 NP_000295.1 NP_057632.2 NP_653294.1 NP_003383.2 NP_001035249.1 NP_036364.2 NP_835464.1 NP_006785.1 NP_872304.2 NP_001683.2 NP_859428.1 AAH36117.1 NP_036364.2 NP_005181.2 NP_115934.1 AAI01555.1 NP_060685.2 NP_001034301.1 NP_705719.2 NP_065438.1 AAH62368.1 NP_814444.1 NP_001005176.1 NP_689473.1 NP_775794.2 NP_005224.2 NP_954584.1 NP_543150.1 NP_036519.1 AAH00786.1 NP_056933.2 AAH67735.1 NP_872198.1 NP_570721.1 NP_055279.2 NP_114480.1 AAH47510.1 NP_057251.2 AAH67735.1 AAH64514.1 NP_060759.2 NP_004568.2 NP_004012.1 AAH05286.1 NP_068593.2 AAH25318.1 AAH64514.1 NP_002723.2 NP_006745.1 AAH63451.1 NP_001403.1 NP_068593.2 NP_002806.2 NP_683513.1 NP_149109.1 NP_653318.2 AAH29542.2 NP_115783.1 NP_733843.1 AAH50405.1 NP_835145.1 NP_055417.1 AAH12061.1 NP_060254.2 AAH63635.1 ENSP00000338750 AAH26030.1 NP_006690.1 AAH01861.2 AAH36911.1 AAH64566.1 AAH62625.1 NP_038470.1 NP_078889.1 NP_078984.2 NP_008874.2 NP_006733.1 NP_112580.1 NP_666017.1 NP_038470.1 NP_114062.1 AAH64902.1 NP_115877.2 NP_055397.1 NP_004253.1 NP_065931.2 AAH07460.1 NP_003726.1 AAH66888.1 NP_851827.1 NP_037479.1 NP_004264.2 AAH51773.1 NP_000541.1 NP_001008660.1 NP_997210.3 NP_062564.1 AAH65016.1 NP_004264.2 AAH58020.1 AAH60772.1 NP_631961.1 NP_002418.1 NP_066191.1 NP_057296.1 NP_742111.1 NP_000861.1 AAH35757.2 NP_443192.1 NP_543146.1 NP_976031.1 AAH93840.1 NP_001035.1 NP_004170.1 NP_036410.1 NP_443192.1 NP_002845.1 NP_998885.1 NP_112563.1 NP_000075.1 NP_112572.1 ENSP00000314947 AAH63435.1 NP_068749.3 NP_055363.1 NP_115781.1 AAH41611.1 NP_068587.1 ENSP00000314947 AAH63435.1 ENSP00000308083 NP_055363.1 NP_063941.2 AAH00154.1 NP_001812.2 NP_036506.1 ENSP00000361134 NP_777561.1 AAH66929.1 NP_112477.1 NP_068567.1 NP_115267.1 NP_036506.1 NP_997239.1 NP_777561.1 AAH67514.1 NP_777362.1 NP_002368.1 NP_057143.1 NP_938018.1 AAH67819.1 NP_476517.1 NP_859061.2 NP_085116.2 AAH60868.1 AAH58007.1 AAH60871.1 AAH66257.1 NP_665879.1 NP_001917.1 NP_612190.1 NP_443725.2 AAH58863.1 NP_892016.1 NP_004456.1 NP_061026.2 AAH65918.1 NP_001124.1 NP_757379.1 NP_000940.1 AAI01578.1 NP_005858.1 NP_689740.2 NP_852479.1 NP_003804.1 NP_000882.1 NP_000592.3 NP_001086.2 NP_060205.3 NP_001003937.1 ENSP00000333479 ENSP00000364054 NP_055719.1 AAH23623.1 NP_071354.2 NP_066406.1 NP_001003937.1 ENSP00000368530 NP_006736.1 NP_060488.2 NP_647451.1 NP_951009.1 NP_006180.1 AAH68453.1 NP_001035894.1 NP_002020.1 NP_940862.1 NP_689828.1 NP_963861.1 NP_039225.1 NP_066950.1 NP_036284.1 AAH47771.1 NP_940862.1 ENSP00000255180 NP_776253.3 NP_005363.1 NP_001733.1 NP_005721.3 NP_061816.1 NP_848698.1 NP_079245.2 NP_004597.2 NP_005363.1 NP_009033.1 NP_612467.1 AAH56262.1 NP_000498.2 AAI13662.1 AAH67259.1 NP_115744.2 NP_066567.1 AAH67822.1 NP_683879.1 NP_004102.1 NP_001034975.1 NP_036484.1 NP_056231.3 NP_778235.1 NP_009158.3 NP_683879.1 NP_008924.1 AAH05359.1 NP_079184.1 AAH65827.1 NP_620579.1 NP_001004307.1 NP_848627.1 AAH53858.1 ENSP00000364010 ENSP00000322057 NP_060176.2 NP_543149.1 NP_620161.1 NP_689833.1 AAH60815.1 AAH42090.1 NP_542773.1 NP_065386.1 NP_543149.1 NP_002653.1 NP_612191.1 NP_653208.2 NP_000677.2 NP_839943.2 NP_002348.1 NP_490645.1 AAI01595.1 NP_006502.1 NP_003775.1 NP_000054.2 NP_004237.1 XP_001127318.1 AAH66645.1 NP_115961.1 NP_055311.1 NP_150645.1 AAH47469.1 NP_061167.1 AAH63792.1 NP_001002762.1 Q9UKL2 NP_065943.1 NP_071405.1 NP_066978.1 NP_060116.2 NP_778225.1 NP_001002762.1 NP_001755.1 AAH21301.1 NP_705934.1 NP_443158.1 NP_694544.1 NP_115913.1 NP_997190.1 NP_000947.2 NP_002413.1 NP_056932.1 NP_079019.2 NP_631907.1 NP_036483.1 AAH67815.1 AAH64428.1 NP_001004745.1 NP_115266.1 NP_689808.2 NP_631907.1 NP_037489.1 NP_066991.2 NP_060615.1 NP_689582.1 AAH02462.1 NP_653258.2 NP_056006.1 NP_078863.2 NP_000796.1 AAH67808.1 NP_001008391.1 NP_149419.1 NP_653258.2 AAH67301.1 NP_078863.2 AAH67120.1 AAH67447.1 NP_004092.1 AAH56673.1 NP_006679.1 AAH58911.1 AAH58911.1 NP_056290.3 NP_620830.1 NP_056274.3 AAH60770.1 AAH69505.1 NP_065689.1 AAH36926.1 NP_071322.1 NP_853642.1 NP_689783.1 AAH21934.1 NP_008889.2 ENSP00000364864 ENSP00000353536 NP_000403.1 NP_853642.1 NP_000688.1 NP_056383.1 AAH36319.1 NP_840059.1 ENSP00000332248 AAH53990.1 NP_853638.1 NP_789794.1 NP_055735.1 AAH35625.1 NP_060115.3 NP_002282.1 AAH50420.1 NP_853638.1 NP_569734.2 NP_573572.1 AAH57780.1 NP_115822.1 NP_004340.1 NP_853646.1 NP_000236.2 AAH53533.2 NP_954658.1 NP_001004754.1 NP_037469.2 NP_937794.1 NP_853641.1 NP_057603.1 NP_940869.1 AAH62684.1 NP_777572.1 AAH00201.1 ENSP00000336593 NP_000866.1 NP_001254.2 NP_001556.1 AAH66974.1 NP_071423.2 NP_065697.1 NP_036436.1 ENSP00000307408 NP_647598.1 NP_000402.3 NP_695021.2 NP_579889.1 NP_066282.1 AAI01665.1 ENSP00000307408 NP_004657.1 NP_006394.1 NP_987093.1 NP_443142.1 NP_003131.1 AAH60792.1 NP_523354.1 NP_109594.1 AAH22436.1 NP_987093.1 NP_004903.2 NP_612116.1 NP_000870.1 NP_523354.1 AAH65041.1 NP_001874.2 AAH60886.1 NP_057441.1 NP_853510.1 NP_004063.1 NP_510968.2 AAH70089.1 NP_443149.1 NP_940851.1 NP_955352.1 ENSP00000156499 AAH34629.1 NP_689409.1 AAH13395.1 NP_071357.2 AAH59360.1 NP_057541.2 NP_001821.1 NP_067005.1 NP_055283.1 NP_056130.2 NP_112595.2 NP_002226.1 NP_848512.1 NP_055985.1 NP_004048.1 NP_055283.1 NP_002356.2 NP_851994.1 NP_061336.1 NP_055569.1 NP_056375.1 NP_057332.1 NP_060461.3 ENSP00000309421 NP_660202.2 NP_065864.1 NP_006625.1 NP_056502.1 NP_005786.1 NP_006063.1 AAH41868.1 AAH64518.1 NP_006601.2 AAH93994.1 NP_060937.1 NP_005966.1 NP_085137.1 AAH35959.1 AAH15593.1 NP_056648.1 NP_002161.2 NP_001853.2 ENSP00000265659 NP_001130.1 NP_060950.2 NP_009212.1 NP_660215.1 NP_663745.1 NP_733778.1 NP_000952.1 NP_061131.1 NP_036495.1 NP_001089.1 NP_660215.1 NP_005199.2 NP_076918.1 NP_063938.1 NP_671731.1 NP_061837.3 AAH57803.1 NP_699196.2 NP_113628.1 NP_065129.1 NP_060214.2 NP_000205.1 NP_060603.2 NP_001001436.1 NP_699196.2 NP_005109.2 NP_742099.1 AAH67521.1 NP_065713.1 NP_057250.1 NP_031386.1 NP_001013664.1 AAH02473.3 NP_000401.1 NP_775925.1 NP_065713.1 NP_862820.1 NP_955446.1 NP_116250.2 NP_942559.1 NP_203134.1 NP_072046.2 NP_671703.2 NP_862820.1 NP_079191.1 AAH36123.1 NP_116561.1 NP_950252.1 NP_071770.1 NP_954856.1 AAH02945.2 NP_003032.1 AAH57242.1 NP_005126.1 NP_036595.2 NP_853650.1 NP_001871.2 NP_001018000.1 NP_006864.2 AAH31620.1 NP_085048.1 NP_055741.2 NP_000835.1 NP_001871.2 NP_663626.1 AAH63111.1 NP_054730.1 NP_055819.1 AAH93767.1 NP_005467.1 NP_057236.1 NP_001008896.1 NP_005832.1 NP_542167.1 AAI28242.1 NP_054880.2 NP_036527.1 NP_057236.1 AAH40339.1 NP_597700.1 NP_689929.1 NP_002164.1 NP_006144.1 NP_203519.1 AAH59947.1 NP_031394.2 ENSP00000324755 NP_443189.1 NP_004210.1 NP_006144.1 NP_919299.2 NP_079470.1 ENSP00000358449 NP_722449.1 NP_742067.2 NP_005316.1 NP_002167.1 NP_056290.3 AAH28391.1 NP_002541.1 NP_065159.1 NP_741983.2 AAH93900.1 NP_061835.1 ENSP00000355101 NP_001133.1 NP_945120.1 NP_001008737.1 NP_001006635.1 NP_848697.1 AAH39301.1 NP_036263.1 NP_002160.1 AAH60782.1 NP_001235.1 P48061 NP_001646.2 NP_060509.2 NP_066360.1 NP_079488.1 AAH60872.1 NP_001274.1 NP_059345.1 NP_004023.2 NP_115613.1 NP_444510.2 NP_783862.2 NP_671729.1 NP_004209.1 NP_006747.1 NP_612641.2 ENSP00000326609 NP_059133.1 NP_851826.1 ENSP00000355024 NP_620308.1 ENSP00000309226 ENSP00000312836 NP_113657.1 NP_060099.2 NP_036447.1 NP_073751.2 NP_919275.1 NP_057258.2 XP_085236.1 NP_057371.2 NP_001672.1 NP_775895.1 NP_037477.1 AAH59363.1 NP_963858.1 ENSP00000349963 NP_612569.1 NP_071374.1 AAH69825.1 ENSP00000312213 NP_055758.1 NP_065206.1 NP_689764.3 NP_001073937.1 AAH27854.1 XP_001127025.1 ENSP00000312213 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NP_835367.1 NP_001008723.1 NP_055512.1 XP_376522.1 NP_699189.1 NP_789846.1 NP_741981.1 NP_000441.1 AAH50693.1 NP_937800.1 NP_001017971.1 ENSP00000316405 NP_853653.1 AAH00128.1 NP_002337.1 NP_056250.3 XP_380012.1 NP_110447.2 XP_378356.1 NP_037384.1 NP_002826.2 NP_057587.2 ENSP00000339654 NP_060746.2 NP_110447.2 NP_004107.1 NP_002168.1 XP_378823.1 NP_004866.1 NP_077818.1 XP_945526.1 NP_536339.1 NP_004107.1 Q9P0W0 NP_658913.1 NP_004866.1 NP_444262.1 NP_036575.1 XP_096883.1 NP_872298.1 NP_079333.1 NP_663616.1 XP_084990.1 NP_932061.1 XP_374177.1 NP_847884.1 NP_563615.3 NP_872384.1 NP_663616.1 NP_056185.1 NP_058438.1 NP_000406.1 XP_374281.1 NP_055817.1 NP_694552.1 NP_783161.1 NP_795714.1 XP_378678.1 AAI07587.1 XP_375449.1 NP_857594.1 NP_004940.1 NP_788955.1 NP_002616.1 ENSP00000343338 NP_996847.1 NP_659196.1 NP_004822.2 NP_004389.2 NP_001009880.1 NP_463459.1 NP_004374.1 NP_005320.2 XP_292813.2 NP_631900.1 NP_002201.1 NP_057423.1 NP_065847.1 AAH59174.1 NP_938148.1 XP_379853.1 NP_859078.1 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NP_116177.1 NP_036346.1 NP_068586.1 XP_293396.1 NP_932078.1 NP_001331.1 NP_055615.8 NP_579919.1 NP_689942.2 NP_068586.1 NP_473363.1 NP_932078.1 NP_065075.1 NP_003583.2 NP_065894.1 ENSP00000227163 XP_371901.1 NP_000476.1 NP_079404.2 NP_065075.1 NP_116586.1 NP_078782.3 NP_694536.1 XP_371901.1 NP_715638.1 NP_671518.1 NP_689885.3 NP_954660.1 NP_037522.1 NP_006306.2 NP_940893.1 NP_055241.1 NP_524148.1 NP_006429.1 NP_877952.1 NP_443190.1 ENSP00000275621 NP_036377.1 NP_072045.1 NP_002823.2 NP_056975.1 NP_149102.2 NP_619542.1 NP_036457.1 NP_036377.1 NP_071742.1 NP_996667.1 NP_006248.1 NP_055158.1 NP_001787.2 NP_683412.1 NP_835497.1 XP_293886.3 ENSP00000361660 NP_115782.1 NP_937886.1 ENSP00000347952 NP_056444.2 NP_006612.2 NP_694563.1 NP_683411.1 NP_114398.1 NP_036591.1 NP_055939.1 NP_057310.1 NP_002496.1 NP_003760.1 XP_378240.1 NP_056029.1 NP_000689.1 ENSP00000367305 NP_064567.2 NP_957714.1 NP_858042.1 NP_056369.1 NP_054764.2 NP_001018123.1 NP_005756.2 NP_002396.2 ENSP00000287396 NP_788275.1 AAH74757.2 NP_003254.2 NP_000697.1 NP_056178.3 ENSP00000344581 NP_002929.1 NP_079517.1 NP_937840.1 NP_821079.3 NP_055437.2 NP_003237.2 NP_064647.1 NP_981963.1 NP_816929.1 NP_776215.1 XP_374026.1 NP_055437.2 NP_072179.1 NP_995321.1 NP_981963.1 NP_004394.1 NP_898862.1 NP_001820.2 NP_783165.1 NP_060522.3 NP_722544.1 NP_058131.1 XP_378309.1 NP_741999.3 NP_872418.1 NP_075266.1 ENSP00000282588 NP_002433.1 NP_695016.1 NP_005646.1 NP_955363.1 NP_689586.2 NP_689801.1 NP_078968.3 NP_652766.1 NP_001017922.1 XP_379587.1 NP_998810.1 NP_001925.2 NP_075053.2 NP_631920.1 NP_003280.2 NP_064510.1 XP_293034.1 NP_077283.1 NP_579891.1 NP_079229.2 NP_062538.5 NP_995312.1 NP_476498.1 NP_736608.1 NP_068596.2 NP_002245.4 NP_919435.1 NP_115799.2 NP_996737.1 NP_689620.2 NP_000524.3 NP_932076.1 NP_054774.2 NP_742025.1 NP_619731.1 NP_689865.1 NP_004836.2 NP_002475.2 NP_700476.1 XP_378777.1 NP_149128.1 NP_954855.1 NP_955391.1 AAH13386.1 NP_003880.3 NP_002154.1 Q9BY15 ENSP00000337060 NP_002362.1 NP_849180.1 AAH20660.1 Q9UJX0 XP_380135.1 NP_055604.3 ENSP00000337060 NP_598009.1 NP_001013453.1 ENSP00000334326 NP_689787.1 XP_114355.1 ENSP00000318259 NP_848652.1 NP_000132.1 AAH07681.1 NP_066990.3 XP_087182.1 XP_001127731.1 ENSP00000318259 ENSP00000333192 NP_000132.1 AAH02940.1 NP_005214.2 NP_112552.1 NP_689709.1 NP_075408.1 NP_758438.1 AAH10467.1 AAH02629.1 AAH31332.1 NP_149078.1 XP_371714.1 NP_114410.1 NP_775869.2 ENSP00000331202 ENSP00000054650 AAH31330.1 AAH25244.1 NP_932074.1 NP_899634.1 NP_056510.1 AAH00556.1 Q8NGH3 NP_001070966.1 NP_003272.3 NP_071908.2 XP_374292.1 NP_001825.1 AAH19107.1 NP_037389.4 NP_065750.1 AAH33073.1 NP_710148.1 XP_086879.1 XP_372239.1 Q8NGQ3 NP_932079.1 NP_056671.2 AAH33211.1 XP_378305.1 NP_536721.1 XP_374188.1 NP_996927.1 ENSP00000304898 NP_065734.5 AAH33085.1 ENSP00000337723 AAI13594.1 NP_653183.2 NP_891988.1 AAH65012.1 NP_958923.1 NP_001231.2 NP_997382.1 XP_371248.1 NP_055095.1 NP_787033.1 AAH07750.1 NP_958923.1 NP_036603.1 NP_777624.1 XP_209104.1 NP_001017980.1 ENSP00000353702 AAH07558.1 AAH14661.1 ENSP00000232014 NP_573403.1 NP_116176.1 NP_001017980.1 Q15070 AAH37295.1 NP_996892.1 NP_060375.3 XP_379025.1 NP_694991.2 NP_689546.1 ENSP00000256523 ENSP00000321173 NP_055755.1 Q2M218 NP_002133.3 NP_003332.1 XP_210860.3 AAH09327.1 NP_003860.2 NP_002772.2 AAH14963.1 NP_061134.1 NP_742011.1 NP_775902.2 ENSP00000335495 NP_075259.2 NP_055322.1 NP_653201.1 ENSP00000341684 AAH72439.1 NP_000802.1 NP_001017370.1 NP_075259.2 NP_665806.1 AAH25340.1 NP_859069.2 NP_863654.1 NP_115874.3 NP_003863.2 O75438 AAH33237.1 AAH25340.1 NP_006666.1 NP_001009609.1 NP_705720.1 NP_973732.1 Q9NZG7 NP_620152.1 NP_612157.1 NP_524144.1 NP_598332.1 ENSP00000343505 NP_116326.2 Q8WTV0 AAI28574.1 AAH33165.1 NP_002231.1 NP_963919.1 XP_380131.1 NP_002254.1 NP_060694.2 NP_031392.3 NP_874364.1 NP_543157.1 NP_690865.1 NP_982297.1 AAH02656.1 ENSP00000321329 NP_031392.3 NP_001314.1 NP_001005210.1 NP_113651.3 NP_033666.1 Q9BVK6 ENSP00000321329 NP_055552.1 NP_000824.1 NP_663306.1 NP_006019.1 NP_033666.1 NP_001008530.1 NP_733821.1 NP_982257.1 NP_067638.3 NP_005867.2 NP_694547.1 ENSP00000357824 NP_758863.1 NP_001659.1 AAH15009.1 NP_765978.1 XP_379897.1 NP_001003841.1 NP_001008394.1 NP_085072.2 NP_001073894.1 AAH20778.1 NP_443135.2 NP_899070.1 NP_945147.1 NP_002916.1 NP_056453.1 AAH22058.1 AAH25954.1 NP_073714.1 NP_005728.2 NP_872625.1 NP_705903.1 AAH12997.1 NP_001070862.1 NP_001026863.1 AAH18007.1 AAH89396.1 NP_872625.1 NP_001008221.1 AAH07651.1 AAH25678.1 AAH33126.1 AAH18007.1 NP_892121.1 NP_937795.1 NP_061123.3 NP_059988.3 Q8NGM1 AAH33209.1 NP_689565.2 NP_073567.1 NP_079317.2 NP_066363.1 AAH90948.1 XP_370713.1 NP_079178.2 NP_036203.1 NP_872290.1 NP_005486.1 NP_004333.1 ENSP00000314309 NP_002687.1 NP_689517.1 NP_056424.1 AAH33092.1 AAH65266.1 NP_002342.1 NP_055081.1 AAH61514.1 NP_110388.2 AAH43247.1 AAH33219.1 NP_443156.2 NP_064628.1 AAH55088.1 NP_001008726.1 AAH60825.1 NP_612371.1 NP_001025181.1 NP_443086.1 AAH44586.1 NP_059998.2 AAH45640.1 AAH57767.1 NP_612371.1 NP_055032.1 AAH35975.1 NP_001725.1 AAH62701.1 AAH43394.1 AAH53876.1 NP_001923.2 ENSP00000297015 AAH52284.1 AAH63822.1 NP_055489.1 AAH50546.1 AAH40361.1 NP_878185.1 NP_958839.1 AAH53319.1 NP_059991.1 AAH11699.1 AAH39261.1 NP_000811.1 NP_665739.2 NP_002621.1 NP_940849.1 AAH38709.1 AAH53869.1 AAH40301.1 AAH12040.1 NP_009037.1 NP_665798.1 NP_003000.1 AAH41016.1 NP_859063.2 NP_006275.1 AAH51907.1 AAH11419.1 NP_037413.1 NP_003503.1 AAH23991.1 NP_003743.1 NP_001004354.1 AAH36233.1 AAH43153.1 NP_065975.1 AAH09836.1 NP_066307.1 AAH23554.1 AAH56147.1 AAH41332.1 NP_003581.1 NP_057253.2 AAH09836.1 NP_077285.2 AAH19104.1 AAH60765.1 NP_003754.2 AAH51795.1 AAH30803.1 NP_004167.3 NP_075555.1 NP_006638.1 NP_079101.2 AAH53847.1 AAH47527.1 AAH34001.1 NP_065813.1 AAH20677.1 NP_001030022.1 AAH60814.1 NP_116195.2 NP_006693.3 NP_005555.2 NP_065813.1 AAH09403.1 NP_036345.2 AAH10634.1 AAH60863.1 AAH43277.1 NP_036294.1 AAH66647.1 NP_004380.2 AAH34030.1 NP_055937.1 NP_001919.2 NP_689940.3 NP_057525.1 AAH13296.1 NP_003875.3 AAH63114.1 NP_859065.1 NP_055480.1 NP_060419.1 NP_001189.1 AAH15793.1 AAH67262.1 NP_689892.1 NP_006706.2 AAH36335.1 NP_060419.1 NP_149988.1 NP_009003.1 NP_116291.1 NP_203129.1 NP_733772.1 AAH48217.1 AAH57806.1 NP_001007190.1 NP_036376.2 AAH17408.1 AAH53873.1 AAH37344.1 NP_066278.2 NP_543009.2 NP_001007190.1 NP_066288.2 NP_001327.2 NP_113607.1 AAH14217.1 NP_056142.1 NP_003508.1 NP_079425.2 AAH57238.1 AAH09388.1 NP_068772.2 AAH54004.1 AAH38446.1 NP_000545.1 NP_788954.1 NP_060228.2 AAH09388.1 NP_620138.1 AAH56911.1 NP_004449.1 AAH42999.1 NP_110409.2 AAH01502.1 AAH60514.1 NP_006149.2 AAH60785.1 NP_068597.2 NP_060686.1 NP_659495.1 NP_001551.1 NP_115728.2 NP_998772.1 AAH57765.1 AAH56907.1 AAH50548.1 AAH32128.1 AAH50453.2 NP_004400.4 AAH52589.1 NP_055620.1 NP_848588.2 NP_008944.1 AAH33204.1 AAH56143.1 AAH22256.1 AAH39202.1 NP_694945.2 AAH60828.1 AAH40285.1 NP_689677.1 AAH64840.1 AAH10099.1 NP_006824.2 AAH41132.1 AAH57783.1 AAH39583.2 NP_000511.1 NP_005808.2 NP_009078.1 NP_954984.1 AAH41132.1 NP_612433.1 AAH56401.1 NP_059523.1 NP_892010.1 NP_009078.1 NP_056449.1 AAH48331.1 XP_932502.1 AAH40695.1 NP_001356.1 AAH39241.1 AAH60762.1 NP_004724.1 AAH50522.1 NP_004448.2 AAH51695.1 NP_115553.2 AAH52269.1 AAH38428.1 NP_000352.1 AAH36216.1 NP_001026885.1 AAH47782.1 NP_065956.1 NP_775183.1 NP_006661.1 NP_005630.1 AAH41831.1 AAH36056.1 AAH50538.1 AAH47327.1 NP_004628.4 AAH27620.1 AAH57768.1 NP_443107.1 AAH36056.1 AAH50716.1 NP_004730.2 NP_443106.1 AAH41054.1 AAH59361.1 NP_981967.1 NP_000457.1 AAH39256.1 NP_699205.1 NP_705690.2 AAH47079.1 NP_001001482.1 NP_997169.1 NP_861964.1 AAH00419.2 NP_037465.2 NP_689870.3 AAH50442.1 ENSP00000358197 NP_851807.1 NP_001015.1 AAH01852.2 NP_003394.1 AAH36059.1 AAH48970.1 NP_987091.1 NP_150283.1 NP_940975.2 NP_055094.1 AAH35282.1 NP_002193.2 AAH48970.1 NP_001002919.1 NP_001001870.1 ENSP00000355036 NP_064555.2 AAH46163.1 NP_110429.1 NP_002922.2 NP_005659.1 NP_071683.1 ENSP00000351013 AAH01121.2 NP_067083.1 NP_899232.1 NP_078985.3 ENSP00000332070 AAH00869.1 NP_839945.1 AAH42170.2 AAH45799.1 AAH36908.1 ENSP00000300590 NP_001009551.1 NP_783321.2 NP_001014977.1 NP_149106.2 NP_001028723.1 NP_000503.1 NP_612141.1 AAI26177.1 NP_001005414.1 NP_054775.1 NP_001001852.1 AAH49375.1 NP_061165.1 NP_689891.1 ENSP00000372412 NP_001002848.1 AAI12434.1 NP_001083.2 NP_071418.2 NP_872415.1 NP_689891.1 NP_848031.1 NP_689674.2 NP_001009181.1 AAH07991.1 AAH34991.1 NP_060481.3 AAH36032.1 NP_898828.2 NP_542772.1 NP_995311.1 NP_742017.1 AAH31069.1 AAH32825.1 NP_005401.3 NP_001002924.1 NP_478109.1 NP_001009616.1 NP_001071639.1 NP_085057.2 AAH50543.1 NP_079495.1 NP_057410.1 NP_001005849.1 NP_848028.1 NP_060915.2 NP_003599.2 AAH33886.1 NP_001073847.1 ENSP00000305252 NP_997168.1 O43262 AAH02376.2 NP_694978.2 AAH36083.1 NP_848666.1 NP_004097.1 NP_005979.1 AAH61920.1 AAH03164.2 AAH58862.1 NP_036414.1 NP_877580.1 AAI17305.1 NP_001007276.1 NP_001003714.1 AAH15586.2 AAH51871.1 AAH40981.1 AAH46145.1 NP_937988.1 NP_001003713.1 NP_001005782.1 NP_001005910.1 NP_055655.1 AAH35263.2 AAH46145.1 ENSP00000300469 NP_714963.1 NP_690594.1 NP_037458.3 AAH47592.1 AAH38241.1 NP_036216.2 AAI03841.1 NP_001539.2 NP_899060.1 AAH17258.2 AAH47673.1 AAH53576.1 AAH31091.1 NP_001002849.1 NP_598330.1 ENSP00000361386 NP_068703.1 AAH47673.1 NP_619727.1 AAH33491.1 NP_997171.1 NP_851800.1 NP_067060.2 NP_002705.2 AAH36301.1 AAH47368.1 NP_056464.1 NP_660265.1 ENSP00000351027 AAH02759.2 NP_060636.1 NP_689541.1 NP_057501.2 AAH40290.1 NP_001003684.1 NP_996850.1 AAH19039.2 AAH06107.1 NP_612355.1 NP_061843.2 NP_116584.2 NP_072056.1 NP_001004722.1 AAH22812.2 AAH21245.2 AAH47528.1 AAH46095.1 NP_115828.1 NP_597673.1 NP_995309.1 NP_036380.2 NP_000572.2 NP_776183.1 AAH35013.1 AAH54001.1 NP_851312.1 AAH26014.2 NP_079084.2 NP_001010905.1 NP_054734.2 NP_775936.1 AAH54347.1 NP_113604.1 NP_001005732.1 AAH02354.1 AAH12183.2 AAH16985.2 NP_775735.1 NP_898870.1 NP_851804.1 NP_997170.1 NP_078944.2 NP_057416.1 AAH31691.2 AAH40237.1 ENSP00000348607 NP_859055.1 NP_563614.1 AAH15816.2 AAH22199.2 NP_000775.1 AAH31063.1 NP_851806.1 NP_957712.1 NP_851802.1 NP_000830.2 ENSP00000357323 NP_001001925.1 NP_690851.2 NP_001002035.1 NP_001007251.1 NP_001178.1 NP_690863.1 NP_006594.3 AAH47507.1 NP_690851.2 AAI17398.1 NP_006871.2 NP_783319.1 NP_066012.1 NP_001691.1 NP_653202.1 AAH53995.1 NP_995310.1 NP_009002.1 NP_997167.1 NP_570967.1 NP_060955.1 AAH33290.1 NP_113674.1 NP_996881.1 NP_997256.1 NP_001009614.1 AAH04884.2 AAH07782.1 NP_001002021.1 NP_851811.1 AAH14164.2 AAH05046.1 NP_060848.2 NP_001035810.1 NP_003425.2 AAH28348.2 NP_004445.1 NP_071895.2 NP_909119.1 NP_057153.8 NP_001025067.1 AAH00331.1 AAH07242.2 NP_001020373.1 NP_073738.2 AAH17282.1 NP_116141.1 NP_996793.1 NP_006513.1 AAH04564.2 NP_004252.2 NP_055586.1 AAH16062.1 AAH21931.1 NP_071413.1 AAH02963.1 ENSP00000347484 AAH22893.2 NP_002874.1 AAH21143.1 NP_005985.2 NP_071413.1 AAH08746.1 AAH00226.2 AAH23567.2 NP_003776.2 NP_000411.1 NP_001027539.1 AAH11753.1 NP_705612.1 AAH01946.2 NP_058650.1 ENSP00000279389 NP_055994.1 AAH02557.1 AAH07761.1 NP_057254.1 NP_005889.3 NP_542155.1 NP_055147.1 AAH02564.1 AAH01497.1 NP_006388.2 NP_003346.2 NP_689956.1 AAH17356.2 AAH07072.1 AAH14097.1 AAH14093.1 NP_004307.2 NP_001203.1 NP_001707.1 NP_004719.2 AAH67101.1 AAH06083.1 NP_005042.1 NP_077309.1 AAH11735.1 NP_005816.2 NP_005279.1 NP_076432.1 NP_116139.1 AAH08800.1 NP_060701.1 AAH00266.1 NP_005440.1 NP_056970.1 NP_079231.3 AAH05030.1 NP_001011658.1 NP_003972.1 NP_004173.1 AAH08902.2 NP_997166.1 NP_079215.2 NP_116290.1 AAH12095.1 AAH02763.1 NP_690596.1 NP_115660.2 NP_055223.1 NP_116020.1 NP_000242.1 NP_057391.1 NP_005617.2 NP_000066.1 AAH20711.2 NP_002478.1 NP_776216.1 NP_000242.1 NP_862826.1 AAH04249.1 NP_005726.1 AAH05830.2 AAH05043.1 NP_115635.1 AAH11624.1 AAH12081.1 ENSP00000352215 NP_060377.1 AAH14210.2 AAH07637.1 NP_056287.1 NP_006823.1 NP_612442.1 NP_056525.1 NP_619533.1 AAH11636.2 AAH00762.1 NP_061865.1 NP_891552.1 NP_001537.1 NP_004068.2 NP_001009956.1 NP_005654.2 AAH52804.1 NP_061865.1 NP_061178.1 NP_114366.1 NP_000855.1 NP_002622.2 AAH01655.2 NP_057661.3 AAH07847.1 AAH14420.1 NP_078785.1 NP_612419.1 AAH11875.1 AAH06206.3 AAH53991.1 AAH07847.1 NP_060676.2 NP_061848.2 AAH00601.1 AAH26060.1 NP_008843.1 AAH27713.1 AAH08466.1 NP_065078.1 NP_001003802.1 NP_060684.4 NP_056415.1 NP_075571.1 NP_001006657.1 NP_055227.1 AAH05083.1 NP_002680.2 AAH01215.1 NP_115485.1 AAH04480.1 AAH26033.1 NP_000173.2 NP_115743.1 NP_001027464.1 NP_113612.1 AAH01169.1 AAH01610.2 NP_000113.1 AAH13878.1 NP_054768.2 NP_001001325.1 ENSP00000362684 NP_055562.2 AAH01463.2 AAH11729.1 AAH16054.1 NP_001421.2 NP_443201.1 NP_001019.1 NP_002122.1 NP_004660.2 NP_599150.1 AAH21134.1 NP_660340.1 NP_478070.1 NP_006070.2 NP_000976.1 AAH05924.2 NP_599150.1 NP_060322.1 NP_006330.2 AAH11585.1 ENSP00000273611 NP_068577.1 AAH08919.3 AAH68522.1 AAH00594.1 AAH25258.1 NP_777593.1 AAH06309.1 NP_851854.1 AAH05871.3 NP_115675.1 NP_006611.1 NP_060729.2 NP_001019800.1 NP_478072.1 NP_001018071.1 AAH11857.2 AAH01652.1 NP_612456.1 AAH03182.1 NP_001026897.1 NP_001924.2 NP_115604.1 AAH14153.2 AAH53325.1 AAH06465.1 AAH08770.1 NP_006105.1 NP_054737.1 NP_036220.1 NP_000264.1 NP_060263.2 AAH07895.1 AAH08770.1 NP_060895.1 NP_056480.1 NP_005567.2 NP_000921.1 AAH11654.1 NP_116136.1 NP_597998.1 NP_005369.2 NP_061961.2 NP_005408.1 AAH03557.1 NP_001015886.1 NP_001017431.1 AAH33902.1 AAH13201.1 NP_612453.1 NP_874394.1 AAH01874.1 NP_001017397.1 NP_697018.1 AAH36529.1 AAH34044.1 AAH16924.1 NP_002981.2 NP_001188.1 ENSP00000370014 NP_077276.2 AAH33710.2 AAH30194.1 NP_002423.1 NP_004582.1 NP_057672.1 NP_001275.1 NP_001009957.1 NP_000672.2 AAH29588.1 AAH28972.1 AAH37777.1 NP_112738.1 AAH20506.1 NP_001013276.1 AAH94688.1 AAH26189.2 NP_078998.1 AAH37777.1 NP_001484.1 AAH10267.1 NP_001007157.1 NP_066547.1 NP_001007238.1 ENSP00000313104 NP_076924.1 ENSP00000370425 NP_001005332.1 AAH09073.1 NP_055592.1 NP_056340.2 AAH17049.2 AAH38585.1 NP_001011670.1 AAH30652.1 NP_699160.1 NP_689539.1 NP_002607.1 NP_036558.3 NP_036452.1 AAI30656.1 AAH46221.2 NP_055663.1 NP_665804.1 AAH14837.1 NP_055737.1 NP_002930.2 NP_002093.1 AAH28020.1 AAH10444.1 AAH69412.1 AAH24240.1 NP_065798.1 AAH32643.1 NP_065141.3 NP_006533.1 NP_006096.2 NP_775867.1 NP_003089.1 AAH16847.1 NP_653228.1 NP_001009598.1 NP_057004.1 AAH30825.1 NP_005452.2 NP_036537.1 NP_005854.2 AAH22450.1 Q8TCU9 NP_004880.1 NP_001014450.1 NP_689939.1 NP_059121.1 NP_777588.1 AAH25715.1 AAH18299.1 NP_001009938.1 ENSP00000356534 NP_060478.2 NP_001480.3 NP_660348.1 NP_071884.1 ENSP00000324727 ENSP00000358494 NP_115793.1 AAH00979.2 AAH30224.1 AAH32762.1 NP_071884.1 AAH10502.1 NP_002644.3 NP_705611.1 NP_079366.2 AAH30539.1 NP_775751.1 NP_997266.2 NP_689753.2 NP_055267.1 NP_001017418.1 NP_006668.1 AAH30664.2 AAH34418.1 NP_997266.2 AAH33028.1 NP_006150.1 AAH11350.1 NP_004526.1 NP_066576.1 NP_543015.1 NP_001005354.1 NP_620134.2 AAH32639.1 NP_065104.1 NP_055906.1 NP_002933.1 AAH42195.2 NP_001005354.1 NP_000240.1 AAH29926.1 AAH22219.1 NP_998733.1 NP_065859.1 NP_055793.1 AAH37773.1 NP_001017398.1 AAH31817.2 AAH33000.1 NP_060875.1 NP_002078.1 NP_056017.1 AAH37773.1 NP_001018092.1 AAH18136.1 AAH10574.1 NP_005887.2 NP_066277.1 NP_001008537.1 AAH36940.1 AAI30539.1 NP_001011669.1 AAH30267.1 AAH34511.1 AAH16936.1 NP_056143.1 AAH38960.1 ENSP00000366047 NP_001018072.1 AAH33012.1 NP_689615.1 NP_005444.3 NP_653276.1 NP_075063.1 NP_001012424.1 NP_001018021.1 NP_001011878.1 NP_689692.2 NP_663736.1 NP_114163.1 NP_079091.3 AAH17016.1 NP_061329.3 NP_001017430.1 NP_057217.2 NP_003092.4 AAH69484.1 NP_689791.1 NP_075060.1 NP_001018118.1 NP_001012644.1 AAH30027.2 NP_055991.1 NP_001176.1 AAH26088.1 AAH28131.1 AAH11046.1 NP_001019802.1 NP_065860.2 NP_690045.1 NP_955378.1 NP_620450.1 AAH30532.1 NP_001857.1 NP_001014313.1 NP_054860.1 AAH01304.2 NP_659485.1 NP_001157.1 AAH36518.1 AAH29104.1 AAH15171.1 NP_006035.2 NP_055610.1 AAH33800.1 NP_996849.1 AAH00993.2 AAH32526.1 NP_005058.3 AAH69304.1 NP_060473.2 AAH32712.1 NP_996849.1 AAH13045.1 NP_006469.2 NP_009089.4 NP_078957.1 NP_055518.1 NP_058544.2 NP_874391.1 NP_005941.1 AAH36364.2 AAH36444.1 NP_005321.1 AAH16392.1 NP_653166.2 NP_874391.1 NP_001011667.1 NP_443198.1 AAH33656.2 AAH27940.1 AAH27869.1 NP_079145.2 NP_071324.1 NP_116221.2 AAH34775.1 NP_001017973.1 AAH02631.1 AAH02630.1 NP_005975.1 AAH51287.1 NP_116221.2 AAH19912.1 AAH63531.1 NP_055577.1 AAH08603.1 NP_942123.1 NP_001142.2 ENSP00000319671 NP_079014.1 NP_542184.1 AAH01038.1 NP_060218.1 NP_003122.1 AAH02463.1 NP_001489.1 AAH11138.1 NP_981952.1 AAH01147.1 NP_003780.1 AAH22896.1 NP_653232.3 NP_000605.1 AAH11138.1 NP_940940.1 NP_057542.2 AAH00212.1 NP_828847.1 NP_068734.1 AAH41799.1 AAI28403.1 AAH06260.1 NP_996808.1 AAH01908.1 AAH57843.1 NP_110422.2 AAH30692.1 NP_056939.1 AAH06106.3 AAH00597.1 AAH04217.1 AAH41070.1 AAH37407.1 AAH26081.1 AAH39145.1 NP_000013.2 NP_005796.1 NP_060346.2 NP_057415.1 AAH67753.1 AAH22996.1 NP_001026895.1 AAH02772.1 AAH06271.1 ENSP00000348674 AAH27258.1 AAH51372.1 AAH14940.1 NP_004358.2 NP_116162.1 AAH06170.1 NP_000740.1 AAH61584.1 NP_001353.3 NP_001008535.1 NP_848643.1 NP_037403.1 NP_002196.2 NP_036608.1 NP_786923.1 NP_003829.2 NP_997352.1 NP_060020.1 NP_057222.2 NP_112594.1 NP_001002019.1 AAH08183.1 NP_002938.1 NP_997352.1 AAH38467.1 AAH03069.1 NP_055393.1 AAH02651.1 NP_068373.1 NP_057001.1 NP_060738.2 AAH38467.1 AAH01902.1 NP_085053.1 NP_006547.1 NP_055757.2 NP_060349.1 AAH43437.1 AAH22534.1 NP_036517.1 AAH00060.1 NP_116076.1 NP_059128.2 NP_076955.1 NP_037480.1 NP_036407.1 NP_722540.1 AAH02981.1 NP_115686.3 NP_061977.1 NP_004177.2 NP_003193.2 NP_653322.1 AAH66922.1 AAH04995.1 NP_001008566.1 AAH30517.1 AAH52244.1 NP_940685.2 NP_002220.1 AAH06264.1 NP_068814.2 NP_004992.2 AAH59383.1 AAH35371.1 NP_060268.2 NP_858041.1 AAH06110.1 NP_004542.1 NP_077297.2 NP_002708.1 AAH41792.1 AAH30195.1 NP_001002255.1 NP_004869.1 NP_004084.1 AAH02583.1 AAH13793.1 AAH68523.1 NP_078976.2 NP_005548.2 NP_037520.1 AAH06340.1 NP_542769.2 AAH28195.1 NP_000946.2 AAH19890.1 NP_940968.1 NP_000934.1 NP_116103.1 AAH06289.1 NP_110432.1 AAH17745.1 NP_000427.1 NP_055175.2 AAH04270.1 NP_002096.1 AAH07717.1 ENSP00000305687 AAH66903.1 NP_958925.1 NP_116228.1 NP_061819.2 AAH08611.1 AAH07448.1 AAH08674.1 NP_004654.1 NP_958925.1 AAH33677.1 NP_006446.1 NP_001970.2 AAH02700.1 NP_060586.2 AAH09031.1 NP_003660.1 NP_689698.1 NP_689512.1 NP_004814.1 AAH08368.1 NP_005354.1 AAH09031.1 NP_003660.1 AAH22481.1 NP_689512.1 AAH00094.3 NP_002324.1 NP_004407.2 NP_002703.1 AAH40344.1 AAH31288.1 AAH02440.1 NP_001002027.1 AAH02894.1 AAH08688.1 NP_078783.1 NP_848927.1 AAH21178.1 AAH02464.1 AAH05000.1 NP_001017916.1 AAH35749.1 NP_006033.1 AAH38235.1 NP_001078518.1 AAH69429.1 NP_002847.1 AAH01625.1 NP_063945.2 AAH52298.1 AAH39739.1 NP_690615.1 AAH06265.1 NP_006167.1 AAH01625.1 NP_061967.3 ENSP00000349206 AAH70055.1 ENSP00000343084 NP_076438.1 NP_689555.2 AAH01883.1 AAH16984.1 AAH42998.1 AAH70055.1 AAH23251.1 NP_003189.1 NP_150089.1 AAH00576.1 AAH32248.1 NP_001027564.1 AAH37974.1 NP_997215.1 NP_003749.2 NP_660143.1 AAH04865.1 AAH67754.1 NP_060364.3 AAH34948.1 NP_776159.1 NP_219363.1 NP_067018.1 NP_877433.2 NP_852147.1 AAH09368.3 AAH34948.1 NP_689977.1 AAH26341.1 AAH12764.1 NP_705839.2 AAH71739.1 NP_001011708.1 NP_000131.2 NP_116207.2 NP_001026890.1 AAH23985.2 NP_066552.1 NP_001012414.1 NP_001019839.1 NP_932340.2 AAH33640.1 NP_115873.1 NP_002919.2 NP_001005472.1 NP_000717.2 NP_835466.1 AAH08629.1 AAH50738.1 NP_775891.1 AAH28580.1 NP_005375.2 NP_005554.1 NP_112582.2 AAH00966.1 AAH42105.1 NP_004326.1 NP_689598.1 NP_536347.1 NP_001017524.1 NP_963844.2 AAH04446.1 NP_001001655.1 AAH38238.1 AAH29917.1 AAH18706.1 NP_004419.2 AAH64987.1 AAH04446.1 AAH06486.1 AAH64919.1 AAH33781.1 NP_647611.1 NP_055157.1 NP_001013761.1 AAH41609.1 AAH10082.1 AAH65835.1 AAH32714.1 NP_001014435.1 NP_060602.2 NP_001015054.1 NP_789743.1 AAH00864.1 NP_055870.2 NP_057202.2 NP_991330.1 AAH17783.1 AAH03359.1 AAH28026.1 NP_055634.2 AAH10892.1 AAH31626.1 NP_001012987.1 NP_001793.1 AAH01241.1 AAH57255.1 AAH26119.1 NP_066305.2 AAH68529.1 NP_001019827.1 AAH61910.1 NP_060238.3 AAH17246.1 NP_849158.1 NP_000521.1 AAH08073.2 NP_001019979.1 NP_079123.2 NP_004041.1 NP_004152.1 NP_001010897.1 AAH34051.1 NP_620129.2 NP_001009813.1 NP_940888.2 NP_001014444.1 AAH28363.1 NP_006092.1 AAH37284.1 XP_937337.2 NP_003956.2 NP_001912.2 NP_005736.3 AAH44243.1 AAH32597.1 AAH22782.1 NP_005672.1 AAH71675.1 NP_976061.1 NP_116273.2 AAH33078.1 NP_588611.2 AAH33615.1 NP_689978.1 AAH71675.1 NP_001013646.1 NP_001013670.3 AAH08146.1 AAH48343.1 AAH32624.1 NP_775102.1 NP_060387.2 NP_001007215.1 NP_001899.1 NP_003016.1 NP_002518.1 AAH48989.1 NP_066382.1 NP_005269.1 NP_660320.3 NP_001253.1 AAH33102.1 NP_064512.1 NP_078805.3 AAH32777.1 NP_001013639.1 NP_071935.1 NP_057315.2 NP_001001560.1 ENSP00000367068 AAH67734.1 AAH32584.1 NP_938083.1 AAH15797.1 NP_079104.2 NP_116288.2 NP_057724.2 NP_002706.1 NP_689971.4 NP_001011666.1 AAH58831.1 NP_444504.1 NP_787107.1 AAH26313.2 AAH09416.2 AAH33670.1 AAH30650.1 NP_075388.2 AAH08098.1 AAH47105.1 AAH37300.1 AAH21562.1 NP_005710.1 AAH71694.1 NP_001012527.1 NP_001002880.1 AAH31009.1 NP_001029082.1 AAH21562.1 NP_115805.1 NP_060042.2 AAH35166.1 NP_660089.1 AAH09524.1 NP_653313.2 NP_005200.1 NP_068556.1 NP_060243.2 NP_001012267.1 NP_060679.1 NP_002109.1 NP_653313.2 AAH34977.2 AAH20238.1 NP_006467.4 NP_612379.1 NP_037495.1 AAH45189.1 NP_065094.2 AAH37283.1 AAH21557.1 NP_775495.1 NP_001019553.1 NP_004721.1 NP_057436.2 NP_115524.2 AAH29141.1 NP_775265.1 NP_002064.1 NP_005189.2 NP_001004756.1 NP_071420.1 NP_940974.1 NP_689816.2 NP_001011537.1 NP_001035891.1 NP_001011546.1 NP_114402.1 AAH00846.1 AAH64844.1 NP_037498.1 NP_683516.1 AAH13435.1 NP_056245.2 NP_114402.1 NP_062456.1 NP_005994.1 NP_536355.1 NP_001020130.1 NP_065761.1 NP_009007.2 NP_057602.2 AAH20066.1 NP_003124.1 AAH46461.1 NP_001020130.1 NP_006705.1 NP_009007.2 NP_653253.1 AAH22189.2 AAH14945.1 AAH67743.1 NP_001012991.1 NP_001013721.1 NP_060286.1 NP_066002.1 NP_073571.1 NP_056328.2 NP_060874.1 NP_004687.1 NP_001526.2 NP_001013642.1 NP_604431.1 NP_689862.1 NP_001523.2 NP_258441.1 NP_653182.1 NP_006834.2 NP_001001991.1 NP_006461.3 NP_004759.1 NP_065098.1 NP_001008661.1 NP_653182.1 NP_004010.1 NP_005978.2 NP_055602.1 NP_624311.1 NP_060396.2 NP_663718.1 NP_037534.2 NP_000026.2 NP_006532.1 NP_002341.1 NP_775841.2 ENSP00000271359 NP_663718.1 NP_542170.3 NP_059135.1 NP_001009909.2 NP_000104.1 NP_004890.2 NP_001503.1 AAH02661.3 NP_001006666.1 NP_073611.1 NP_689757.1 NP_001499.1 NP_003788.2 NP_060758.1 NP_060907.2 NP_001028197.1 NP_037375.2 NP_116185.2 NP_057677.2 NP_036398.3 NP_061944.2 NP_062822.1 NP_000346.2 NP_597708.1 NP_060616.1 NP_115568.2 NP_001004054.2 NP_036585.1 NP_062822.1 NP_067010.2 NP_003110.1 Q9UHG0 NP_942008.1 NP_000073.1 NP_659501.1 NP_068764.3 NP_542388.2 NP_071746.1 NP_006493.1 NP_000646.1 ENSP00000316631 NP_861446.2 NP_689542.2 NP_931045.1 NP_061982.3 NP_115271.1 NP_004953.1 NP_071901.2 NP_998820.1 NP_001078.2 NP_001007234.1 NP_005561.1 NP_000853.1 NP_002660.1 NP_060434.2 NP_665690.1 NP_998766.1 NP_001002858.1 NP_079503.1 NP_060017.1 ENSP00000366540 NP_001351.1 NP_056984.1 NP_073580.1 NP_056958.3 NP_008946.1 NP_997074.1 NP_932094.1 NP_852123.1 NP_061895.3 NP_073580.1 NP_003266.1 NP_001161.1 NP_001007794.1 NP_066934.1 NP_003261.1 NP_005479.1 NP_076421.2 NP_001020083.1 NP_005910.1 ENSP00000344000 NP_057167.2 NP_001003716.1 NP_060614.2 NP_001007029.1 NP_000889.3 NP_110435.1 NP_061026.1 AAH67418.1 NP_001008783.1 NP_057112.3 NP_659448.1 NP_694534.1 NP_060956.1 NP_003720.1 NP_079068.1 NP_478067.2 ENSP00000365858 NP_036468.1 NP_054745.1 NP_008879.3 O60931 NP_002863.1 NP_001003954.1 NP_115666.1 NP_954583.1 NP_057086.2 NP_004727.2 NP_996317.1 NP_001379.1 NP_478123.1 NP_003181.3 NP_054742.2 NP_006027.2 ENSP00000302683 NP_000070.1 NP_055297.1 NP_060514.1 NP_942010.1 NP_055208.1 NP_001013864.1 NP_002107.3 NP_003813.1 NP_000238.1 NP_653251.1 NP_536356.3 NP_954874.1 NP_060790.2 NP_001010851.1 NP_477520.2 NP_742126.1 NP_659471.1 NP_612432.2 NP_002060.4 NP_009106.1 NP_149017.2 NP_002822.2 NP_000742.1 NP_872346.2 NP_060378.1 NP_001010893.1 NP_005054.3 NP_005835.2 NP_005179.2 NP_001767.3 NP_067011.1 NP_079243.1 NP_001012749.1 NP_114131.1 NP_653236.2 NP_003846.1 NP_001767.3 ENSP00000337694 NP_002594.1 NP_056080.1 NP_001011720.1 NP_004824.1 AAH95471.1 NP_003663.2 NP_055643.1 NP_000174.1 NP_001010883.1 NP_055282.1 NP_060526.1 NP_003291.2 ENSP00000261769 NP_001007279.1 NP_775903.2 NP_002216.1 NP_055282.1 NP_060673.1 NP_004842.1 NP_001279.2 NP_115679.2 NP_001006943.1 NP_001013754.1 NP_065068.1 NP_872307.2 NP_062455.1 NP_001218.1 NP_004256.1 NP_036313.3 NP_065086.1 NP_066976.1 NP_000228.1 Q96NB3 NP_000756.1 NP_060717.1 NP_001053.2 NP_005591.1 NP_002655.1 NP_004507.2 ENSP00000355043 NP_078815.3 NP_001001576.1 NP_003942.1 NP_932164.1 NP_001014975.1 NP_002538.1 NP_000556.1 NP_078815.3 NP_001001575.1 NP_068569.2 NP_694983.2 NP_663625.2 AAI01790.1 NP_878901.2 NP_065777.1 NP_001228.1 NP_778232.2 NP_872580.1 NP_005801.3 NP_602310.1 NP_003926.1 NP_001863.1 NP_000515.2 NP_037415.1 NP_001005168.1 NP_000725.1 NP_001002231.1 NP_001863.2 NP_002232.2 NP_001221.2 NP_848509.1 NP_001005184.1 NP_473445.1 NP_003227.1 NP_000628.2 NP_620637.1 NP_056968.1 NP_055449.1 NP_003017.1 NP_001005479.1 NP_001008699.1 NP_849199.2 NP_002521.2 NP_001001928.1 NP_000949.1 NP_001001975.1 NP_001005479.1 NP_001007471.1 NP_002790.1 AAH07394.1 NP_932064.1 AAI17515.1 AAH07909.1 NP_003028.1 NP_001005183.1 NP_001928.2 AAH09763.1 NP_001972.1 NP_005235.3 NP_002589.2 NP_056943.1 NP_057651.1 NP_005861.1 NP_004741.1 NP_003366.2 NP_076977.3 NP_004271.1 NP_003618.1 NP_001004715.1 NP_001903.1 NP_006395.2 NP_000353.1 NP_001656.2 NP_001001551.1 NP_003589.1 NP_031368.1 NP_002566.1 NP_002027.2 NP_002859.1 NP_000119.1 NP_006797.3 NP_001346.1 AAH67353.1 NP_001496.1 NP_001004063.1 NP_004811.1 NP_848659.1 NP_110386.1 NP_079272.4 NP_150366.1 NP_002551.2 NP_002248.1 NP_015562.1 NP_116307.1 NP_620447.1 NP_877724.1 NP_733927.1 NP_000799.1 NP_001008491.1 NP_002795.2 NP_004286.2 NP_001001658.1 NP_003700.1 NP_733927.1 NP_000147.1 ENSP00000315011 NP_003211.1 NP_073565.2 NP_008820.1 NP_004128.1 NP_003686.1 NP_006285.1 NP_000537.2 NP_006847.1 NP_005909.2 NP_001522.1 NP_074036.1 NP_783852.1 NP_000152.1 NP_065685.1 ENSP00000333905 NP_115715.3 NP_588608.1 NP_001004476.1 NP_510868.1 NP_004976.2 NP_000831.2 NP_000390.2 AAH07993.1 AAH00494.1 NP_001005487.1 NP_001090.2 NP_004070.3 AAH07354.1 NP_277031.1 NP_109587.1 NP_115644.1 NP_067004.3 NP_001212.2 NP_071890.2 AAH01477.1 NP_004546.1 NP_009068.1 NP_061820.1 NP_005919.1 NP_057274.1 NP_071890.2 AAH01477.1 NP_004381.2 NP_150592.1 NP_005183.2 NP_066925.1 NP_000884.1 NP_005739.2 NP_006215.1 NP_002697.1 NP_733830.1 NP_001720.1 NP_004211.1 ENSP00000257290 NP_001005162.1 NP_113645.1 NP_001014794.1 NP_061838.1 NP_110393.1 NP_002457.1 NP_001772.1 NP_001005162.1 NP_006630.1 NP_003890.1 NP_003832.2 NP_005055.2 NP_602294.1 AAH68046.1 NP_001861.1 NP_001005199.1 NP_002205.1 NP_001005238.1 NP_001003690.1 NP_690611.1 AAH68046.1 NP_055981.1 NP_002414.1 NP_005229.1 NP_002691.1 NP_001005195.1 NP_005463.1 AAH70322.1 NP_001859.1 NP_064707.1 NP_001001556.1 NP_899645.1 NP_001004479.1 NP_060182.1 AAH70322.1 NP_037499.2 NP_001479.3 NP_000373.1 NP_001013663.1 NP_001006619.1 NP_057839.1 NP_054885.1 NP_000680.2 NP_003910.1 NP_055975.1 AAH05940.1 Q86WV1 NP_001005182.1 NP_057341.1 NP_073599.2 NP_116127.3 NP_005099.2 NP_006532.2 NP_003123.2 NP_001005497.1 NP_659452.2 AAH36557.1 NP_057365.2 NP_115612.4 NP_003721.2 AAH08300.1 NP_203124.1 NP_003575.1 NP_000467.1 NP_005543.2 NP_000497.1 NP_602295.1 NP_542786.1 NP_958440.1 ENSP00000251968 NP_006559.1 NP_064575.1 NP_003462.2 NP_001770.1 NP_000614.1 NP_001474.1 NP_640338.2 NP_835221.2 AAH14530.1 NP_683720.2 NP_473367.1 NP_055165.1 NP_116270.1 NP_001875.1 NP_001167.2 NP_002395.1 NP_003285.2 NP_001003927.1 NP_694578.1 NP_001020405.1 NP_006234.1 NP_002112.3 NP_002722.1 P42081 NP_064617.2 NP_004166.1 AAH20165.1 NP_001685.1 AAH18070.1 NP_055096.2 NP_073563.1 AAH18906.1 NP_000009.1 AAH20165.1 NP_110440.1 NP_689834.1 NP_002797.2 NP_073563.1 AAH18906.1 NP_055756.1 NP_570899.1 NP_116296.1 NP_689834.1 AAH09239.1 NP_057095.2 NP_005649.1 NP_001005158.1 NP_061756.1 NP_006694.1 AAH08962.1 NP_066937.1 NP_005702.3 NP_001222.2 NP_060648.2 NP_003358.1 NP_036272.2 AAH08950.1 NP_689992.1 NP_005702.3 AAH33239.1 NP_057517.1 AAH67085.1 NP_115607.1 AAH07703.1 AAH08964.1 NP_065717.1 NP_060581.1 NP_067643.2 NP_060091.1 NP_115607.1 NP_116186.1 NP_001025177.1 NP_689600.2 NP_060581.1 NP_612637.1 NP_000734.2 AAH07024.1 AAH08958.1 AAH07732.1 NP_689600.2 NP_149975.1 AAH33920.1 NP_036374.1 AAH06558.1 NP_115748.1 AAH07732.1 NP_002221.1 NP_000357.3 AAH09940.2 NP_008925.1 AAH22543.1 NP_067065.1 NP_003668.2 NP_000105.1 NP_003681.1 AAH09940.2 NP_067039.1 AAH22494.1 NP_004035.2 NP_005852.2 AAH09808.1 NP_036359.1 NP_036600.2 AAH21215.1 AAH22494.1 AAH05272.1 AAH08041.1 NP_955459.1 NP_036359.1 NP_036600.2 NP_061945.1 AAH01184.2 NP_000512.1 NP_004682.2 NP_955459.1 NP_055642.3 AAH07709.1 NP_006835.2 NP_005902.1 NP_116248.2 AAH08874.1 NP_004586.2 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AAH47504.1 AAH00279.1 NP_066927.1 AAH30790.1 AAH20600.1 NP_005636.1 AAH43564.1 AAH47504.1 NP_002686.2 AAH11461.1 AAH30598.1 AAH29121.1 NP_068805.1 NP_062831.3 NP_112194.2 NP_002686.2 AAH11461.1 AAH30598.1 AAH29121.1 NP_068805.1 NP_062831.3 NP_112194.2 AAH03166.1 NP_277055.1 AAH30656.1 AAH29140.1 NP_001004693.1 AAH45641.1 NP_004531.2 AAH03166.1 NP_277055.1 AAH30656.1 AAH29140.1 NP_001004693.1 AAH45641.1 NP_004531.2 NP_003698.1 AAH23982.1 AAH15760.1 NP_001223.2 AAH31231.1 NP_777584.1 NP_000718.1 NP_003698.1 AAH23982.1 AAH15760.1 NP_001223.2 AAH31231.1 NP_777584.1 NP_000718.1 NP_002924.1 AAH20841.1 NP_002717.3 AAH26102.1 AAH36439.1 AAH12566.1 AAH15195.1 NP_002924.1 AAH20841.1 NP_002717.3 AAH26102.1 AAH36439.1 AAH12566.1 AAH15195.1 AAH06971.1 AAH33770.1 AAH30804.1 NP_006103.1 AAH09956.1 NP_001004702.1 AAH36075.1 AAH06971.1 AAH33770.1 AAH30804.1 NP_006103.1 AAH09956.1 NP_001004702.1 AAH36075.1 AAH51282.1 NP_055039.1 ENSP00000224807 NP_742113.1 AAH16276.1 AAH60837.1 NP_061942.2 AAH51282.1 NP_055039.1 ENSP00000224807 NP_742113.1 AAH16276.1 AAH60837.1 NP_061942.2 AAH08781.1 NP_570720.1 NP_064601.3 NP_037474.1 NP_055252.2 NP_861974.1 AAH38509.1 AAH08781.1 NP_570720.1 NP_064601.3 NP_037474.1 NP_055252.2 NP_861974.1 AAH38509.1 NP_057540.1 NP_005847.1 AAH00091.1 NP_057389.1 NP_061974.2 ENSP00000371067 AAH39254.1 NP_057540.1 NP_005847.1 AAH00091.1 NP_057389.1 NP_061974.2 ENSP00000371067 AAH39254.1 NP_057396.1 NP_653192.1 AAH32805.1 NP_003013.1 AAH11765.1 AAH35960.1 NP_694580.1 NP_694580.1 NP_005108.1 AAH15743.1 NP_004712.1 AAH80554.1 NP_061887.2 NP_062822.1 NP_982249.1 NP_055932.1 NP_057422.3 NP_057229.1 NP_060521.3 NP_055437.2 NP_060724.1 NP_982249.1 NP_055932.1 NP_057422.3 NP_057229.1 NP_060521.3 NP_055437.2 NP_060724.1 NP_002052.1 AAH00819.1 NP_000519.2 NP_113668.2 NP_115517.1 NP_036346.1 NP_653246.1 NP_002052.1 AAH00819.1 NP_000519.2 NP_113668.2 NP_115517.1 NP_036346.1 NP_653246.1 NP_055482.1 AAH17713.1 AAH30808.1 NP_004264.2 NP_110447.2 NP_068586.1 NP_001017926.1 NP_055482.1 AAH17713.1 AAH30808.1 NP_004264.2 NP_110447.2 NP_068586.1 NP_001017926.1 NP_062562.1 NP_055999.1 NP_001278.1 NP_987093.1 NP_073619.2 XP_371901.1 AAH68046.1 NP_062562.1 NP_055999.1 NP_001278.1 NP_987093.1 NP_073619.2 XP_371901.1 AAH68046.1 NP_787077.1 AAH37209.1 NP_000880.1 NP_660215.1 NP_115920.1 NP_872625.1 AAH70322.1 NP_787077.1 AAH37209.1 NP_000880.1 NP_660215.1 NP_115920.1 NP_872625.1 AAH70322.1 NP_071894.1 NP_057535.1 NP_689521.1 NP_940820.1 NP_075059.1 AAH09388.1 NP_004586.2 NP_071894.1 NP_057535.1 NP_689521.1 NP_940820.1 NP_075059.1 AAH09388.1 NP_004586.2 NP_054906.2 NP_005917.2 NP_612366.1 ENSP00000314947 NP_006209.2 AAH46145.1 AAH33109.1 NP_054906.2 NP_005917.2 NP_612366.1 ENSP00000314947 NP_006209.2 AAH46145.1 AAH33109.1 NP_005428.1 NP_064710.3 NP_001009584.1 NP_036506.1 NP_004275.2 AAH07847.1 NP_004269.1 NP_005428.1 NP_064710.3 NP_001009584.1 NP_036506.1 NP_004275.2 AAH07847.1 NP_004269.1 AAH59395.1 AAH50424.1 NP_006733.1 AAH58911.1 NP_055273.2 NP_001017980.1 NP_060581.1 AAH59395.1 AAH50424.1 NP_006733.1 AAH58911.1 NP_055273.2 NP_001017980.1 NP_060581.1 NP_001169.3 AAH32587.1 NP_443192.1 NP_056290.3 NP_958924.1 NP_000132.1 AAH00467.1 NP_001169.3 AAH32587.1 NP_443192.1 NP_056290.3 NP_958924.1 NP_000132.1 AAH00467.1 NP_055400.1 AAH29498.1 NP_005363.1 NP_055283.1 NP_036377.1 NP_075259.2 AAH20165.1 NP_055400.1 AAH29498.1 NP_005363.1 NP_055283.1 NP_036377.1 NP_075259.2 AAH20165.1 AAH37207.1 AAH12946.1 NP_115497.3 NP_065713.1 NP_981963.1 NP_958923.1 NP_055046.1 AAH37207.1 AAH12946.1 NP_115497.3 NP_065713.1 NP_981963.1 NP_958923.1 NP_055046.1 AAH03571.1 NP_060495.2 NP_003383.2 NP_057236.1 ENSP00000329957 NP_031392.3 NP_006184.1 AAH03571.1 NP_060495.2 NP_003383.2 NP_057236.1 ENSP00000329957 NP_031392.3 NP_006184.1 AAH08390.1 NP_055316.2 AAH06371.1 NP_853642.1 NP_954992.1 AAH25340.1 NP_955388.1 AAH08390.1 NP_055316.2 AAH06371.1 NP_853642.1 NP_954992.1 AAH25340.1 NP_955388.1 NP_060287.1 NP_062558.1 AAH22516.1 NP_064620.2 NP_940906.1 NP_001007190.1 NP_006386.1 NP_060287.1 NP_062558.1 AAH22516.1 NP_064620.2 NP_940906.1 NP_001007190.1 NP_006386.1 NP_002568.2 AAH02723.1 NP_055891.1 NP_003144.3 NP_065075.1 NP_065813.1 NP_478107.1 NP_002568.2 AAH02723.1 NP_055891.1 NP_003144.3 NP_065075.1 NP_065813.1 NP_478107.1 NP_005108.1 AAH15743.1 NP_004712.1 AAH80554.1 NP_061887.2 NP_062822.1 NP_872287.1 NP_872287.1 AAI32881.1 NP_149991.2 NP_009133.2 NP_002638.2 NP_004711.2 AAH06494.3 NP_036381.2 NP_001010931.1 NP_149991.2 NP_009133.2 NP_002638.2 NP_004711.2 AAH06494.3 NP_036381.2 NP_001010931.1 NP_001027019.1 NP_004408.1 NP_005100.1 NP_005549.2 NP_002394.1 AAH74950.1 NP_757345.1 NP_001027019.1 NP_004408.1 NP_005100.1 NP_005549.2 NP_002394.1 AAH74950.1 NP_757345.1 AAI00916.1 AAH06103.1 NP_065172.1 AAH24919.1 NP_003553.2 NP_851831.1 AAH41364.1 AAI00916.1 AAH06103.1 NP_065172.1 AAH24919.1 NP_003553.2 NP_851831.1 AAH41364.1 AAI00915.1 AAH14479.1 NP_055751.1 AAH12605.1 NP_057090.2 NP_001001684.1 AAH93625.1 AAI00915.1 AAH14479.1 NP_055751.1 AAH12605.1 NP_057090.2 NP_001001684.1 AAH93625.1 AAH89454.1 NP_659462.1 NP_005389.1 NP_060749.2 NP_003059.1 ENSP00000358175 AAI01407.1 AAH93008.1 NP_659462.1 NP_005389.1 NP_060749.2 NP_003059.1 ENSP00000358175 AAI01407.1 AAH67508.1 NP_060580.2 AAH21992.1 NP_619585.1 AAH11498.1 NP_001004419.1 AAH73765.1 AAH64998.1 NP_060580.2 AAH21992.1 NP_619585.1 AAH11498.1 NP_001004419.1 AAH73765.1 AAH20225.1 NP_003396.1 NP_009171.1 AAH12920.1 AAH21909.1 NP_001020410.1 AAH25952.1 AAH20225.1 NP_003396.1 NP_009171.1 AAH12920.1 AAH21909.1 NP_001020410.1 AAH25952.1 NP_003630.1 NP_000422.1 NP_112214.1 AAH12514.1 NP_079121.1 NP_002761.1 AAH15664.1 NP_003630.1 NP_000422.1 NP_112214.1 AAH12514.1 NP_079121.1 NP_002761.1 AAH15664.1 NP_997461.1 ENSP00000329646 NP_068769.2 AAH19108.1 NP_006352.2 NP_055323.2 AAH71746.1 NP_997461.1 ENSP00000329646 NP_068769.2 AAH19108.1 NP_006352.2 NP_055323.2 AAH71746.1 AAH15186.1 AAH16618.1 NP_473374.1 AAH12098.1 NP_002895.3 NP_001248.1 AAH07679.1 AAH15186.1 AAH16618.1 NP_473374.1 AAH12098.1 NP_002895.3 NP_001248.1 AAH07679.1 NP_001310.2 NP_620601.1 NP_473374.1 NP_078886.2 NP_620133.1 NP_060988.3 AAH14022.2 NP_001310.2 NP_620601.1 NP_473374.1 NP_078886.2 NP_620133.1 NP_060988.3 AAH14022.2 NP_660302.1 AAH09195.1 NP_002712.1 AAH12564.1 NP_001069.1 NP_055725.2 AAH12338.1 NP_660302.1 AAH09195.1 NP_002712.1 AAH12564.1 NP_001069.1 NP_055725.2 AAH12338.1 AAH06190.1 NP_001252.1 AAH16183.1 NP_009202.1 NP_009042.1 NP_115856.1 AAH41851.1 AAH06190.1 NP_001252.1 AAH16183.1 NP_009202.1 NP_009042.1 NP_115856.1 AAH41851.1 NP_002645.3 NP_001001875.1 AAH00566.1 AAH12626.1 NP_001012523.1 NP_477515.2 NP_001004480.1 NP_002645.3 NP_001001875.1 AAH00566.1 AAH12626.1 NP_001012523.1 NP_477515.2 NP_001004480.1 AAH26330.1 NP_001789.2 NP_076930.1 AAH14775.1 NP_002530.1 NP_997054.1 NP_056269.1 AAH26330.1 NP_001789.2 NP_076930.1 AAH14775.1 NP_002530.1 NP_997054.1 AAH47310.2 AAH06231.1 NP_004194.3 AAH03635.1 AAH01141.1 AAH21127.1 NP_008967.1 AAH45554.2 AAH06231.1 NP_004194.3 AAH03635.1 AAH01141.1 AAH21127.1 NP_008967.1 NP_079324.2 AAH12264.1 AAH24291.1 NP_006487.1 NP_660287.1 NP_005330.1 AAI32881.1 NP_079324.2 AAH12264.1 AAH24291.1 NP_006487.1 NP_660287.1 NP_005330.1 NP_057034.2 AAH19861.1 NP_005833.1 NP_001630.1 AAH00052.1 NP_001929.1 AAH22042.1 NP_057034.2 AAH19861.1 NP_005833.1 NP_001630.1 AAH00052.1 NP_001929.1 AAH22042.1 NP_003081.2 NP_006298.1 NP_620124.1 AAH05259.1 NP_001179.1 NP_112202.2 NP_071425.2 NP_003081.2 NP_006298.1 NP_620124.1 AAH05259.1 NP_001179.1 NP_112202.2 NP_071425.2 AAH25263.1 NP_660316.1 NP_005068.2 NP_076932.1 NP_057390.1 NP_003241.2 NP_689723.1 AAH25263.1 NP_660316.1 NP_005068.2 NP_076932.1 NP_057390.1 NP_003241.2 NP_689723.1 AAH18736.1 AAH28219.1 AAH14449.1 AAH06079.1 AAH07704.1 AAH03152.1 ENSP00000327038 AAH18736.1 AAH28219.1 AAH14449.1 AAH06079.1 AAH07704.1 AAH03152.1 ENSP00000327038 Q9UMY4 AAH26077.1 AAH16477.1 NP_055567.1 NP_057575.2 NP_689534.1 NP_009039.1 Q9UMY4 AAH26077.1 AAH16477.1 NP_055567.1 NP_057575.2 NP_689534.1 NP_009039.1 AAH27955.1 AAH27604.1 NP_653207.1 NP_056279.1 AAH02957.1 AAH31570.1 AAH13184.1 AAH27955.1 AAH27604.1 NP_653207.1 NP_056279.1 AAH02957.1 AAH31570.1 AAH13184.1 NP_054797.2 NP_001216.1 AAH15742.1 ENSP00000217602 NP_001950.1 NP_689648.1 AAH20979.1 NP_054797.2 NP_001216.1 AAH15742.1 ENSP00000217602 NP_001950.1 NP_689648.1 AAH20979.1 AAH99903.1 NP_997545.2 AAH08392.1 NP_005577.1 NP_036392.2 NP_001217.2 AAH13174.1 AAH99903.1 NP_997545.2 AAH08392.1 NP_005577.1 NP_036392.2 NP_001217.2 AAH13174.1 AAH13991.1 AAH14592.1 AAH05217.1 NP_000700.1 NP_006699.2 AAH01433.1 NP_006078.2 AAH13991.1 AAH14592.1 AAH05217.1 NP_000700.1 NP_006699.2 AAH01433.1 NP_006078.2 AAH19292.1 AAH22028.1 NP_002147.2 AAH05893.1 AAH04937.1 NP_003884.1 NP_036460.1 AAH19292.1 AAH22028.1 NP_002147.2 AAH05893.1 AAH04937.1 NP_003884.1 NP_036460.1 AAH09362.1 AAH11595.1 NP_000127.2 NP_004616.2 AAH01250.1 NP_006614.2 NP_057022.2 AAH09362.1 AAH11595.1 NP_000127.2 NP_004616.2 AAH01250.1 NP_006614.2 NP_057022.2 NP_037424.2 NP_660311.1 NP_115550.2 AAH08068.1 AAH03188.1 NP_112242.1 AAH09245.1 NP_037424.2 NP_660311.1 NP_115550.2 AAH08068.1 AAH03188.1 NP_112242.1 AAH09245.1 NP_689559.1 NP_036450.1 NP_671722.1 NP_002336.1 NP_076979.1 NP_443095.2 NP_690877.1 NP_689559.1 NP_036450.1 NP_671722.1 NP_002336.1 NP_076979.1 NP_443095.2 NP_690877.1 NP_006844.1 AAH22853.1 AAH16778.1 AAH07990.1 ENSP00000354182 ENSP00000318919 AAH29544.1 NP_006844.1 AAH22853.1 AAH16778.1 AAH07990.1 ENSP00000354182 ENSP00000318919 AAH29544.1 AAH26196.1 NP_005462.1 AAH14441.1 NP_000837.2 NP_001027017.1 NP_060179.2 NP_001001346.1 AAH26196.1 NP_005462.1 AAH14441.1 NP_000837.2 NP_001027017.1 NP_060179.2 NP_001001346.1 NP_689910.1 NP_001620.2 AAH14974.1 AAH04867.1 AAH02702.1 NP_777558.1 AAH27471.1 NP_689910.1 NP_001620.2 AAH14974.1 AAH04867.1 AAH02702.1 NP_777558.1 AAH27471.1 NP_001014986.1 AAH16328.1 AAH08499.1 ENSP00000370652 ENSP00000362773 NP_001008489.1 AAH30200.1 NP_001014986.1 AAH16328.1 AAH08499.1 ENSP00000370652 ENSP00000362773 NP_001008489.1 AAH30200.1 NP_001001561.1 AAH04925.1 NP_115570.1 NP_004093.1 NP_057196.2 AAH30811.1 NP_284941.2 NP_001001561.1 AAH04925.1 NP_115570.1 NP_004093.1 NP_057196.2 AAH30811.1 NP_284941.2 NP_003216.1 NP_001096.1 AAH25407.1 AAH27938.1 AAH14897.1 NP_061957.2 NP_003335.1 NP_003216.1 NP_001096.1 AAH25407.1 AAH27938.1 AAH14897.1 NP_061957.2 NP_003335.1 AAH00450.1 NP_055385.2 AAH22253.1 NP_055398.1 AAH01548.1 NP_597723.1 NP_219480.1 AAH00450.1 NP_055385.2 AAH22253.1 NP_055398.1 AAH01548.1 NP_597723.1 NP_219480.1 NP_054808.1 AAH36450.1 NP_892025.1 NP_009124.2 NP_004109.1 NP_000557.1 NP_001397.1 NP_054808.1 AAH36450.1 NP_892025.1 NP_009124.2 NP_004109.1 NP_000557.1 NP_001397.1 NP_620693.1 NP_620147.1 NP_001034554.1 AAH06091.1 NP_004560.1 AAH00797.1 NP_001026916.1 NP_620693.1 NP_620147.1 NP_001034554.1 AAH06091.1 NP_004560.1 AAH00797.1 NP_001026916.1 NP_659465.2 NP_006662.2 NP_037455.2 NP_653317.1 NP_002345.1 NP_848647.1 AAH36884.1 NP_659465.2 NP_006662.2 NP_037455.2 NP_653317.1 NP_002345.1 NP_848647.1 AAH36884.1 NP_005267.2 NP_002997.1 AAH32802.1 AAH09820.1 NP_061960.1 AAH56889.1 NP_001880.2 NP_005267.2 NP_002997.1 AAH32802.1 AAH09820.1 NP_061960.1 AAH56889.1 NP_001880.2 NP_006730.2 NP_076964.1 NP_696961.2 AAH12881.1 NP_002872.1 AAH38983.1 NP_001001998.1 NP_006730.2 NP_076964.1 NP_696961.2 AAH12881.1 NP_002872.1 AAH38983.1 NP_001001998.1 AAH36003.1 ENSP00000268514 NP_000662.3 NP_002186.1 NP_003966.1 AAH21163.1 NP_848621.1 AAH36003.1 ENSP00000268514 NP_000662.3 NP_002186.1 NP_003966.1 AAH21163.1 NP_848621.1 NP_612385.1 AAH29395.1 NP_057050.1 AAH14534.1 AAH24211.1 NP_060870.1 NP_009130.1 NP_612385.1 AAH29395.1 NP_057050.1 AAH14534.1 AAH24211.1 NP_060870.1 NP_009130.1 NP_079120.1 AAH30613.1 NP_001419.1 NP_003517.2 NP_001001667.1 NP_981956.1 NP_005399.1 NP_079120.1 AAH30613.1 NP_001419.1 NP_003517.2 NP_001001667.1 NP_981956.1 NP_005399.1 ENSP00000359314 AAH26965.1 NP_786886.1 NP_001070867.1 NP_061863.1 NP_001405.1 AAH49366.1 ENSP00000359314 AAH26965.1 NP_786886.1 NP_001070867.1 NP_061863.1 NP_001405.1 AAH49366.1 NP_001146.2 AAH06317.1 NP_612493.1 AAH14975.1 NP_071761.1 NP_004468.1 NP_003440.1 NP_001146.2 AAH06317.1 NP_612493.1 AAH14975.1 NP_071761.1 NP_004468.1 NP_003440.1 AAH16559.1 AAH12924.1 NP_004458.3 NP_524558.1 NP_631895.1 NP_777587.1 NP_775746.1 AAH16559.1 AAH12924.1 NP_004458.3 NP_524558.1 NP_631895.1 NP_777587.1 NP_775746.1 NP_002188.1 NP_071915.1 NP_005972.1 NP_006111.2 AAH18632.1 NP_003828.2 NP_005751.2 NP_002188.1 NP_071915.1 NP_005972.1 NP_006111.2 AAH18632.1 NP_003828.2 NP_005751.2 AAH13103.1 NP_620143.1 AAH07312.1 NP_001009932.1 NP_115514.2 AAH30800.2 NP_689812.2 AAH13103.1 NP_620143.1 AAH07312.1 NP_001009932.1 NP_115514.2 AAH30800.2 NP_689812.2 NP_065394.1 AAH32016.1 NP_002564.1 NP_003255.2 NP_065881.1 AAH17594.1 AAH26241.1 NP_065394.1 AAH32016.1 NP_002564.1 NP_003255.2 NP_065881.1 AAH17594.1 AAH26241.1 AAH39269.1 NP_004283.2 AAH67519.1 NP_067027.1 NP_663616.1 NP_116565.2 NP_009078.1 AAH39269.1 NP_004283.2 AAH67519.1 NP_067027.1 NP_663616.1 NP_116565.2 NP_009078.1 NP_079002.3 NP_689724.3 AAH06388.2 AAH62415.1 ENSP00000312213 NP_878250.2 NP_599150.1 NP_079002.3 NP_689724.3 AAH06388.2 AAH62415.1 ENSP00000312213 NP_878250.2 NP_599150.1 NP_776168.1 NP_055127.2 NP_078954.3 ENSP00000342031 NP_631907.1 NP_689710.1 NP_061865.1 NP_776168.1 NP_055127.2 NP_078954.3 ENSP00000342031 NP_631907.1 NP_689710.1 NP_061865.1 AAH27241.1 AAH50537.2 NP_443731.2 AAH64514.1 ENSP00000307408 NP_803252.1 NP_000242.1 AAH27241.1 AAH50537.2 NP_443731.2 AAH64514.1 ENSP00000307408 NP_803252.1 NP_000242.1 AAH30287.1 NP_542188.1 NP_733759.1 NP_078863.2 NP_523354.1 NP_114125.1 AAH41132.1 AAH30287.1 NP_542188.1 NP_733759.1 NP_078863.2 NP_523354.1 NP_114125.1 AAH41132.1 AAH22501.1 NP_071428.2 NP_113661.2 NP_683879.1 NP_001871.2 NP_036305.2 AAH36056.1 AAH22501.1 NP_071428.2 NP_113661.2 NP_683879.1 NP_001871.2 NP_036305.2 AAH36056.1 NP_060846.2 AAH37270.1 AAH68530.1 NP_940862.1 NP_853638.1 ENSP00000321329 NP_612371.1 NP_060846.2 AAH37270.1 AAH68530.1 NP_940862.1 NP_853638.1 ENSP00000321329 NP_612371.1 AAH33121.1 NP_001005465.1 NP_000581.1 AAH63463.1 NP_862820.1 AAH18007.1 NP_060419.1 AAH33121.1 NP_001005465.1 NP_000581.1 AAH63463.1 NP_862820.1 AAH18007.1 NP_060419.1 NP_002247.3 ENSP00000264080 NP_653214.2 NP_036364.2 NP_699196.2 AAH09836.1 AAH47673.1 NP_002247.3 ENSP00000264080 NP_653214.2 NP_036364.2 NP_699196.2 AAH09836.1 AAH47673.1 NP_859074.1 NP_005720.1 AAH21730.1 NP_004188.1 NP_006144.1 AAH65926.1 NP_690851.2 NP_859074.1 NP_005720.1 AAH21730.1 NP_004188.1 NP_006144.1 AAH65926.1 NP_690851.2 NP_085140.1 NP_003853.1 AAH35137.1 NP_057632.2 NP_004866.1 NP_006199.1 AAH48970.1 NP_085140.1 NP_003853.1 AAH35137.1 NP_057632.2 NP_004866.1 NP_006199.1 AAH48970.1 AAH10632.1 NP_001431.1 AAH67735.1 NP_078994.2 NP_612377.2 ENSP00000355268 NP_689891.1 AAH10632.1 NP_001431.1 AAH67735.1 NP_078994.2 NP_612377.2 ENSP00000355268 NP_689891.1 NP_003309.2 NP_079056.2 AAH64634.1 NP_068593.2 NP_751896.1 NP_932078.1 AAH08770.1 NP_003309.2 NP_079056.2 AAH64634.1 NP_068593.2 NP_751896.1 NP_932078.1 AAH08770.1 AAH06141.1 NP_003145.1 AAH39318.1 NP_038470.1 NP_001004333.1 NP_001331.1 NP_116221.2 AAH06141.1 NP_003145.1 AAH39318.1 NP_038470.1 NP_001004333.1 NP_001331.1 NP_116221.2 AAH32412.1 NP_057359.2 AAH69344.1 AAH63435.1 AAI04253.1 ENSP00000318259 NP_997352.1 AAH32412.1 NP_057359.2 AAH69344.1 AAH63435.1 AAI04253.1 ENSP00000318259 NP_997352.1 AAH11762.1 NP_683710.1 Q5SZD1 NP_653258.2 NP_002760.1 ENSP00000337060 AAH70055.1 AAH11762.1 NP_683710.1 Q5SZD1 NP_653258.2 NP_002760.1 ENSP00000337060 AAH70055.1 AAH21294.1 AAH67520.1 NP_612207.1 NP_006237.1 NP_004107.1 NP_033666.1 NP_071413.1 AAH21294.1 AAH67520.1 NP_612207.1 NP_006237.1 NP_004107.1 NP_033666.1 NP_071413.1 AAH37777.1 AAH34948.1 AAH09940.2 AAH51733.1 AAH50319.1 NP_001003937.1 AAH37777.1 AAH34948.1 AAH09940.2 AAH51733.1 AAH67731.1 NP_001003937.1 NP_071884.1 AAH04446.1 AAH01477.1 NP_612142.2 NP_001026902.1 NP_071884.1 AAH04446.1 AAH01477.1 NP_612142.2 NP_001005496.1 NP_997266.2 AAH71675.1 NP_073563.1 NP_068557.1 NP_001005496.1 NP_997266.2 AAH71675.1 NP_073563.1 NP_068557.1 XP_001126544.1 NP_001005354.1 NP_001005479.1 NP_005702.3 NP_998773.1 XP_001126544.1 NP_001005354.1 NP_001005479.1 NP_005702.3 NP_998773.1 AAI03919.1 AAH37773.1 NP_733927.1 NP_689600.2 NP_002890.1 AAI03919.1 AAH37773.1 NP_733927.1 NP_689600.2 NP_002890.1 AAH96708.1 NP_996849.1 NP_071890.2 NP_955459.1 AAH69620.1 AAH96708.1 NP_996849.1 NP_071890.2 NP_955459.1 AAH69620.1 AAH95503.1 NP_874391.1 NP_009007.2 NP_473368.1 AAH32855.1 AAH95503.1 NP_874391.1 NP_009007.2 NP_473368.1 AAH32855.1 AAH89417.1 NP_958925.1 NP_114402.1 NP_775819.1 AAH69676.1 AAH89417.1 NP_958925.1 NP_114402.1 NP_775819.1 AAH69676.1 AAH86856.1 NP_653313.2 NP_663718.1 AAH18906.1 NP_055255.1 AAH69428.1 NP_653313.2 NP_663718.1 AAH18906.1 NP_055255.1 AAH64391.1 AAH21562.1 NP_073580.1 NP_036600.2 NP_037410.1 NP_001002762.1 AAH21562.1 NP_073580.1 NP_036600.2 NP_037410.1 NP_001002762.1 NP_001020130.1 NP_653182.1 NP_997311.1 NP_057624.2 NP_055363.1 NP_001020130.1 NP_653182.1 NP_997311.1 NP_057624.2 NP_055363.1 NP_003660.1 NP_055282.1 NP_078981.1 NP_114145.1 NP_054874.3 NP_003660.1 NP_055282.1 NP_078981.1 NP_114145.1 AAH64994.1 AAH38467.1 NP_078815.3 NP_115491.1 AAH70135.1 NP_940986.1 AAH38467.1 NP_078815.3 NP_115491.1 AAH70135.1 NP_940986.1 AAH11138.1 NP_001767.3 AAH22494.1 NP_001026788.1 NP_006337.2 AAH11138.1 NP_001767.3 AAH22494.1 NP_001026788.1 NP_006337.2 NP_689512.1 NP_001005162.1 NP_115607.1 AAH13277.2 AAH21163.1 NP_689512.1 NP_001005162.1 NP_115607.1 AAH13277.2 AAH21163.1 AAH01625.1 AAH03014.1 NP_689834.1 AAH93626.1 NP_777561.1 AAH01625.1 AAH03014.1 NP_689834.1 AAH93626.1 NP_777561.1 AAH09031.1 NP_036359.1 AAH07732.1 AAI04235.1 NP_543149.1 AAH09031.1 NP_036359.1 AAH07732.1 AAI04235.1 NP_543149.1

While preferred embodiments of the present invention have been shown and described herein, it will be obvious to those skilled in the art that such embodiments are provided by way of example only. Numerous variations, changes, and substitutions will now occur to those skilled in the art without departing from the invention. It should be understood that various alternatives to the embodiments of the invention described herein may be employed in practicing the invention. It is intended that the following claims define the scope of the invention and that methods and structures within the scope of these claims and their equivalents be covered thereby. 

1-52. (canceled)
 53. A method for identifying an antibody that is monospecific for a protein, the method comprising: contacting an antibody to a proteome array comprising a plurality of targets from an organism proteome; determining binding between the antibody and each of the targets of the plurality of targets; and identifying an antibody as monospecific when the antibody is monospecific for a single target on the proteome array.
 54. The method of claim 53, wherein each target of the plurality of targets comprises an individually purified protein.
 55. The method of claim 53, wherein the plurality of targets comprises proteins in their native forms.
 56. The method of claim 53, wherein the organism is a human.
 57. The method of claim 53, wherein the organism is a mammal.
 58. The method of claim 53, wherein the organism is a virus or a bacterium.
 59. The method of claim 53, wherein identifying the antibody as monospecific comprises: determining a plurality of signal intensities, wherein each signal intensity of the plurality of signal intensities is measured for the antibody binding to each target of the plurality of targets; ordering the plurality of signal intensities from a highest signal intensity to a lowest signal intensity to produce a rank ordered list of signal intensities; and identifying a single target for which the signal intensity is the highest signal intensity of the rank ordered list of signal intensities; and identifying the antibody as monospecific for the single target.
 60. The method of claim 53, further comprising: calculating a mean signal intensity from the plurality of signal intensities; and identifying a single target for which the signal intensity is greater than six standard deviations above the mean signal intensity; and for which the difference between the signal intensity and second highest signal intensity of the rank ordered list of signal intensities is at least three.
 61. The method of claim 60, wherein identifying the antibody as monospecific comprises identifying a single target for which the signal intensity is greater than 50 standard deviations above the mean signal intensity; and for which the signal intensity is the highest signal intensity of the rank ordered list of signal intensities and the difference between the signal intensity and second highest signal intensity of the rank ordered list of signal intensities is at least
 50. 62. The method of claim 59, further comprising identifying the targets of the plurality of targets providing the top 10 signal intensities from the rank ordered list of signal intensities.
 63. The method of claim 53, wherein the plurality of targets comprises a number of proteins that is at least 80% of the proteome of the organism.
 64. The method of claim 53, wherein the plurality of targets comprises a number of proteins that is at least 90% of the proteome of the organism.
 65. The method of claim 53, wherein the plurality of targets comprises a number of proteins that is at least 98% of the proteome of the organism.
 66. The method of claim 59, wherein each signal intensity is a ratio of foreground signal to background signal.
 67. The method of claim 53, further comprising expressing in vitro each full-length protein of a plurality of full-length proteins to provide the plurality of targets from the organism proteome.
 68. A method for determining the specificity of an antibody, the method comprising: contacting a plurality of antibodies to a proteome array comprising a plurality of targets from an organism proteome; determining a first plurality of signal intensities, wherein each signal intensity of the first plurality of signal intensities is measured for an antibody of the plurality of antibodies binding to a target of the plurality of targets; calculating a first mean signal intensity from the first plurality of signal intensities; selecting a candidate antibody from the plurality of antibodies that produced a signal intensity that is greater than three standard deviations above the first mean signal intensity; contacting the candidate antibody to a proteome array comprising a plurality of targets from an organism proteome; determining a second plurality of signal intensities, wherein each signal intensity of the second plurality of signal intensities is measured for the candidate antibody binding to each target of the plurality of targets; calculating a second mean signal intensity from the second plurality of signal intensities; ordering the plurality of second signal intensities from a highest signal intensity to a lowest signal intensity to produce a rank ordered list of signal intensities; calculating a value A that is a number of standard deviations above the second mean signal intensity of the signal intensity for the candidate antibody and a single target; and calculating a value S that is a difference between the signal intensity for the candidate antibody and the single target and next highest signal intensity of the rank ordered list of signal intensities.
 69. The method of claim 68, further comprising identifying a candidate antibody as monospecific when A>6 and S>3.
 70. The method of claim 68, further comprising identifying a candidate antibody as dispecific when A>6 and S<3.
 71. The method of claim 68, comprising performing the method for a plurality of antibodies.
 72. The method of claim 68, wherein the plurality of targets comprises proteins in their native forms. 